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What is a geoboard made of?

A geoboard is a mathematical manipulative used to explore basic concepts in plane geometry such as perimeter, area and the characteristics of triangles and other polygons. It consists of a physical board with a certain number of nails half driven in, around which are wrapped geo bands that are made of rubber. Normal rubber bands can also be used. Geoboards were invented and popularized in the 1950s by Egyptian mathematician Caleb Gattegno (1911-1988).

A geoboard is made of a physical board, some nails, and geo bands that could be rubber bands.

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### Instruction: What is a geoboard made of? ### Context: A geoboard is a mathematical manipulative used to explore basic concepts in plane geometry such as perimeter, area and the characteristics of triangles and other polygons. It consists of a physical board with a certain number of nails half driven in, around which are wrapped geo bands that are made of rubber. Normal rubber bands can also be used. Geoboards were invented and popularized in the 1950s by Egyptian mathematician Caleb Gattegno (1911-1988). ### Answer: A geoboard is made of a physical board, some nails, and geo bands that could be rubber bands.

What is the central limit theorem

In probability theory, the central limit theorem (CLT) establishes that, in many situations, for identically distributed independent samples, the standardized sample mean tends towards the standard normal distribution even if the original variables themselves are not normally distributed. The theorem is a key concept in probability theory because it implies that probabilistic and statistical methods that work for normal distributions can be applicable to many problems involving other types of distributions. This theorem has seen many changes during the formal development of probability theory. Previous versions of the theorem date back to 1811, but in its modern general form, this fundamental result in probability theory was precisely stated as late as 1920, thereby serving as a bridge between classical and modern probability theory.

For example, suppose that a sample is obtained containing many observations, each observation being randomly generated in a way that does not depend on the values of the other observations, and that the arithmetic mean of the observed values is computed. If this procedure is performed many times, the central limit theorem says that the probability distribution of the average will closely approximate a normal distribution. The central limit theorem has several variants. In its common form, the random variables must be independent and identically distributed (i.i.d.). In variants, convergence of the mean to the normal distribution also occurs for non-identical distributions or for non-independent observations, if they comply with certain conditions. The earliest version of this theorem, that the normal distribution may be used as an approximation to the binomial distribution, is the de Moivre–Laplace theorem.

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### Instruction: What is the central limit theorem ### Context: In probability theory, the central limit theorem (CLT) establishes that, in many situations, for identically distributed independent samples, the standardized sample mean tends towards the standard normal distribution even if the original variables themselves are not normally distributed. The theorem is a key concept in probability theory because it implies that probabilistic and statistical methods that work for normal distributions can be applicable to many problems involving other types of distributions. This theorem has seen many changes during the formal development of probability theory. Previous versions of the theorem date back to 1811, but in its modern general form, this fundamental result in probability theory was precisely stated as late as 1920, thereby serving as a bridge between classical and modern probability theory. ### Answer: For example, suppose that a sample is obtained containing many observations, each observation being randomly generated in a way that does not depend on the values of the other observations, and that the arithmetic mean of the observed values is computed. If this procedure is performed many times, the central limit theorem says that the probability distribution of the average will closely approximate a normal distribution. The central limit theorem has several variants. In its common form, the random variables must be independent and identically distributed (i.i.d.). In variants, convergence of the mean to the normal distribution also occurs for non-identical distributions or for non-independent observations, if they comply with certain conditions. The earliest version of this theorem, that the normal distribution may be used as an approximation to the binomial distribution, is the de Moivre–Laplace theorem.

From the passage provided, extract the year which Presto Software Foundation was announced

Presto was originally designed and developed at Facebook, Inc. (later renamed Meta) for their data analysts to run interactive queries on its large data warehouse in Apache Hadoop. The first four developers were Martin Traverso, Dain Sundstrom, David Phillips, and Eric Hwang. Before Presto, the data analysts at Facebook relied on Apache Hive for running SQL analytics on their multi-petabyte data warehouse. Hive was deemed too slow for Facebook's scale and Presto was invented to fill the gap to run fast queries. Original development started in 2012 and deployed at Facebook later that year. In November 2013, Facebook announced its open source release. In 2014, Netflix disclosed they used Presto on 10 petabytes of data stored in the Amazon Simple Storage Service (S3). In November, 2016, Amazon announced a service called Athena that was based on Presto. In 2017, Teradata spun out a company called Starburst Data to commercially support Presto, which included staff acquired from Hadapt in 2014. Teradata's QueryGrid software allowed Presto to access a Teradata relational database. In January 2019, the Presto Software Foundation was announced. The foundation is a not-for-profit organization for the advancement of the Presto open source distributed SQL query engine. At the same time, Presto development forked: PrestoDB maintained by Facebook, and PrestoSQL maintained by the Presto Software Foundation, with some cross pollination of code. In September 2019, Facebook donated PrestoDB to the Linux Foundation, establishing the Presto Foundation. Neither the creators of Presto, nor the top contributors and committers, were invited to join this foundation. By 2020, all four of the original Presto developers had joined Starburst. In December 2020, PrestoSQL was rebranded as Trino, since Facebook had obtained a trademark on the name "Presto" (also donated to the Linux Foundation). Another company called Ahana was announced in 2020, with seed funding from GV (formerly Google Ventures, an arm of Alphabet, Inc.), to commercialize the PrestoDB fork as a cloud service, while also offering an open-source version. A $20 million round of funding for Ahana was announced in August 202

2019

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### Instruction: From the passage provided, extract the year which Presto Software Foundation was announced ### Context: Presto was originally designed and developed at Facebook, Inc. (later renamed Meta) for their data analysts to run interactive queries on its large data warehouse in Apache Hadoop. The first four developers were Martin Traverso, Dain Sundstrom, David Phillips, and Eric Hwang. Before Presto, the data analysts at Facebook relied on Apache Hive for running SQL analytics on their multi-petabyte data warehouse. Hive was deemed too slow for Facebook's scale and Presto was invented to fill the gap to run fast queries. Original development started in 2012 and deployed at Facebook later that year. In November 2013, Facebook announced its open source release. In 2014, Netflix disclosed they used Presto on 10 petabytes of data stored in the Amazon Simple Storage Service (S3). In November, 2016, Amazon announced a service called Athena that was based on Presto. In 2017, Teradata spun out a company called Starburst Data to commercially support Presto, which included staff acquired from Hadapt in 2014. Teradata's QueryGrid software allowed Presto to access a Teradata relational database. In January 2019, the Presto Software Foundation was announced. The foundation is a not-for-profit organization for the advancement of the Presto open source distributed SQL query engine. At the same time, Presto development forked: PrestoDB maintained by Facebook, and PrestoSQL maintained by the Presto Software Foundation, with some cross pollination of code. In September 2019, Facebook donated PrestoDB to the Linux Foundation, establishing the Presto Foundation. Neither the creators of Presto, nor the top contributors and committers, were invited to join this foundation. By 2020, all four of the original Presto developers had joined Starburst. In December 2020, PrestoSQL was rebranded as Trino, since Facebook had obtained a trademark on the name "Presto" (also donated to the Linux Foundation). Another company called Ahana was announced in 2020, with seed funding from GV (formerly Google Ventures, an arm of Alphabet, Inc.), to commercialize the PrestoDB fork as a cloud service, while also offering an open-source version. A $20 million round of funding for Ahana was announced in August 202 ### Answer: 2019

From the text, how long after the events of Return of the Jedi is the Mandalorian series set? Convert years into months, and use letters to spell out the answer.

The Mandalorian is an American space Western television series created by Jon Favreau for the streaming service Disney+. It is the first live-action series in the Star Wars franchise, beginning five years after the events of Return of the Jedi (1983), and stars Pedro Pascal as the title character, a lone bounty hunter who goes on the run to protect the Force-sensitive child Grogu. Starting in the third season, Katee Sackhoff also stars as Mandalorian Bo-Katan Kryze, following her appearance in the second season.

sixty

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### Instruction: From the text, how long after the events of Return of the Jedi is the Mandalorian series set? Convert years into months, and use letters to spell out the answer. ### Context: The Mandalorian is an American space Western television series created by Jon Favreau for the streaming service Disney+. It is the first live-action series in the Star Wars franchise, beginning five years after the events of Return of the Jedi (1983), and stars Pedro Pascal as the title character, a lone bounty hunter who goes on the run to protect the Force-sensitive child Grogu. Starting in the third season, Katee Sackhoff also stars as Mandalorian Bo-Katan Kryze, following her appearance in the second season. ### Answer: sixty

Where do U2 come from?

U2 are an Irish rock band from Dublin, formed in 1976. The group consists of Bono (lead vocals and rhythm guitar), the Edge (lead guitar, keyboards, and backing vocals), Adam Clayton (bass guitar), and Larry Mullen Jr. (drums and percussion). Initially rooted in post-punk, U2's musical style has evolved throughout their career, yet has maintained an anthemic quality built on Bono's expressive vocals and the Edge's chiming, effects-based guitar sounds. Bono's lyrics, often embellished with spiritual imagery, focus on personal and sociopolitical themes. Popular for their live performances, the group have staged several ambitious and elaborate tours over their career.

The Irish band U2 are from Dublin.

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### Instruction: Where do U2 come from? ### Context: U2 are an Irish rock band from Dublin, formed in 1976. The group consists of Bono (lead vocals and rhythm guitar), the Edge (lead guitar, keyboards, and backing vocals), Adam Clayton (bass guitar), and Larry Mullen Jr. (drums and percussion). Initially rooted in post-punk, U2's musical style has evolved throughout their career, yet has maintained an anthemic quality built on Bono's expressive vocals and the Edge's chiming, effects-based guitar sounds. Bono's lyrics, often embellished with spiritual imagery, focus on personal and sociopolitical themes. Popular for their live performances, the group have staged several ambitious and elaborate tours over their career. ### Answer: The Irish band U2 are from Dublin.

Extract, in order from largest earning to smallest, the biggest earning markets for the premier of Moana, the 2016 Disney film.

The biggest earning markets to date have been Japan ($45.9 million), followed by France ($35.5 million), China ($32.8 million), the UK ($25.3 million), Brazil ($22.9 million), Australia ($19 million), Germany ($17 million), Italy ($15.9 million), and South Korea ($15.5 million).

Japan ($45.9 million), followed by France ($35.5 million), China ($32.8 million), the UK ($25.3 million), Brazil ($22.9 million), Australia ($19 million), Germany ($17 million), Italy ($15.9 million), and South Korea ($15.5 million).

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### Instruction: Extract, in order from largest earning to smallest, the biggest earning markets for the premier of Moana, the 2016 Disney film. ### Context: The biggest earning markets to date have been Japan ($45.9 million), followed by France ($35.5 million), China ($32.8 million), the UK ($25.3 million), Brazil ($22.9 million), Australia ($19 million), Germany ($17 million), Italy ($15.9 million), and South Korea ($15.5 million). ### Answer: Japan ($45.9 million), followed by France ($35.5 million), China ($32.8 million), the UK ($25.3 million), Brazil ($22.9 million), Australia ($19 million), Germany ($17 million), Italy ($15.9 million), and South Korea ($15.5 million).

What are the components of a passive crossover?

A passive crossover is an electronic circuit that uses a combination of one or more resistors, inductors and capacitors. These components are combined to form a filter network and are most often placed between the full frequency-range power amplifier and the loudspeaker drivers to divide the amplifier's signal into the necessary frequency bands before being delivered to the individual drivers. Passive crossover circuits need no external power beyond the audio signal itself, but have some disadvantages: they may require larger inductors and capacitors due to power handling requirements. Unlike active crossovers which include a built-in amplifier, passive crossovers have an inherent attenuation within the passband, typically leading to a reduction in damping factor before the voice coil

A passive crossover is a loudspeaker circuit comprised of resistors, inductors, and capacitors.

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### Instruction: What are the components of a passive crossover? ### Context: A passive crossover is an electronic circuit that uses a combination of one or more resistors, inductors and capacitors. These components are combined to form a filter network and are most often placed between the full frequency-range power amplifier and the loudspeaker drivers to divide the amplifier's signal into the necessary frequency bands before being delivered to the individual drivers. Passive crossover circuits need no external power beyond the audio signal itself, but have some disadvantages: they may require larger inductors and capacitors due to power handling requirements. Unlike active crossovers which include a built-in amplifier, passive crossovers have an inherent attenuation within the passband, typically leading to a reduction in damping factor before the voice coil ### Answer: A passive crossover is a loudspeaker circuit comprised of resistors, inductors, and capacitors.

From the passage identify the risk factors of pneumonia. Display the results in a comma separated format.

Pneumonia is an inflammatory condition of the lung primarily affecting the small air sacs known as alveoli. Symptoms typically include some combination of productive or dry cough, chest pain, fever, and difficulty breathing. The severity of the condition is variable. Pneumonia is usually caused by infection with viruses or bacteria, and less commonly by other microorganisms. Identifying the responsible pathogen can be difficult. Diagnosis is often based on symptoms and physical examination. Chest X-rays, blood tests, and culture of the sputum may help confirm the diagnosis. The disease may be classified by where it was acquired, such as community- or hospital-acquired or healthcare-associated pneumonia. Risk factors for pneumonia include cystic fibrosis, chronic obstructive pulmonary disease (COPD), sickle cell disease, asthma, diabetes, heart failure, a history of smoking, a poor ability to cough (such as following a stroke), and a weak immune system. Vaccines to prevent certain types of pneumonia (such as those caused by Streptococcus pneumoniae bacteria, linked to influenza, or linked to COVID-19) are available. Other methods of prevention include hand washing to prevent infection, not smoking, and social distancing. Treatment depends on the underlying cause. Pneumonia believed to be due to bacteria is treated with antibiotics. If the pneumonia is severe, the affected person is generally hospitalized. Oxygen therapy may be used if oxygen levels are low.

cystic fibrosis, chronic obstructive pulmonary disease (COPD), sickle cell disease, asthma, diabetes, heart failure, a history of smoking, a poor ability to cough (such as following a stroke), a weak immune system

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### Instruction: From the passage identify the risk factors of pneumonia. Display the results in a comma separated format. ### Context: Pneumonia is an inflammatory condition of the lung primarily affecting the small air sacs known as alveoli. Symptoms typically include some combination of productive or dry cough, chest pain, fever, and difficulty breathing. The severity of the condition is variable. Pneumonia is usually caused by infection with viruses or bacteria, and less commonly by other microorganisms. Identifying the responsible pathogen can be difficult. Diagnosis is often based on symptoms and physical examination. Chest X-rays, blood tests, and culture of the sputum may help confirm the diagnosis. The disease may be classified by where it was acquired, such as community- or hospital-acquired or healthcare-associated pneumonia. Risk factors for pneumonia include cystic fibrosis, chronic obstructive pulmonary disease (COPD), sickle cell disease, asthma, diabetes, heart failure, a history of smoking, a poor ability to cough (such as following a stroke), and a weak immune system. Vaccines to prevent certain types of pneumonia (such as those caused by Streptococcus pneumoniae bacteria, linked to influenza, or linked to COVID-19) are available. Other methods of prevention include hand washing to prevent infection, not smoking, and social distancing. Treatment depends on the underlying cause. Pneumonia believed to be due to bacteria is treated with antibiotics. If the pneumonia is severe, the affected person is generally hospitalized. Oxygen therapy may be used if oxygen levels are low. ### Answer: cystic fibrosis, chronic obstructive pulmonary disease (COPD), sickle cell disease, asthma, diabetes, heart failure, a history of smoking, a poor ability to cough (such as following a stroke), a weak immune system

Based on the passage provided, what is the difference between Amdahl's law and the law of diminishing returns?

Amdahl's law is often conflated with the law of diminishing returns, whereas only a special case of applying Amdahl's law demonstrates law of diminishing returns. If one picks optimally (in terms of the achieved speedup) what is to be improved, then one will see monotonically decreasing improvements as one improves. If, however, one picks non-optimally, after improving a sub-optimal component and moving on to improve a more optimal component, one can see an increase in the return. Note that it is often rational to improve a system in an order that is "non-optimal" in this sense, given that some improvements are more difficult or require larger development time than others. Amdahl's law does represent the law of diminishing returns if one is considering what sort of return one gets by adding more processors to a machine, if one is running a fixed-size computation that will use all available processors to their capacity. Each new processor added to the system will add less usable power than the previous one. Each time one doubles the number of processors the speedup ratio will diminish, as the total throughput heads toward the limit of 1/(1 − p). This analysis neglects other potential bottlenecks such as memory bandwidth and I/O bandwidth. If these resources do not scale with the number of processors, then merely adding processors provides even lower returns. An implication of Amdahl's law is that to speed up real applications which have both serial and parallel portions, heterogeneous computing techniques are required. There are novel speedup and energy consumption models based on a more general representation of heterogeneity, referred to as the normal form heterogeneity, that support a wide range of heterogeneous many-core architectures. These modelling methods aim to predict system power efficiency and performance ranges, and facilitates research and development at the hardware and system software levels.

The law of diminishing returns represents a special case of the application of Amdahl's law. The passage provides an example of a scenario where Amdahl's law represents the law of diminishing returns. In this scenario one is running a fixed sized computation that will use all available processors to their capacity and is considering what sort of return can be achieved by adding more processors to a machine. Applying Amdahl's law tells us that each new processor added to the system will add less usable power than the previous. In other words, each new processor yields diminishing returns.

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### Instruction: Based on the passage provided, what is the difference between Amdahl's law and the law of diminishing returns? ### Context: Amdahl's law is often conflated with the law of diminishing returns, whereas only a special case of applying Amdahl's law demonstrates law of diminishing returns. If one picks optimally (in terms of the achieved speedup) what is to be improved, then one will see monotonically decreasing improvements as one improves. If, however, one picks non-optimally, after improving a sub-optimal component and moving on to improve a more optimal component, one can see an increase in the return. Note that it is often rational to improve a system in an order that is "non-optimal" in this sense, given that some improvements are more difficult or require larger development time than others. Amdahl's law does represent the law of diminishing returns if one is considering what sort of return one gets by adding more processors to a machine, if one is running a fixed-size computation that will use all available processors to their capacity. Each new processor added to the system will add less usable power than the previous one. Each time one doubles the number of processors the speedup ratio will diminish, as the total throughput heads toward the limit of 1/(1 − p). This analysis neglects other potential bottlenecks such as memory bandwidth and I/O bandwidth. If these resources do not scale with the number of processors, then merely adding processors provides even lower returns. An implication of Amdahl's law is that to speed up real applications which have both serial and parallel portions, heterogeneous computing techniques are required. There are novel speedup and energy consumption models based on a more general representation of heterogeneity, referred to as the normal form heterogeneity, that support a wide range of heterogeneous many-core architectures. These modelling methods aim to predict system power efficiency and performance ranges, and facilitates research and development at the hardware and system software levels. ### Answer: The law of diminishing returns represents a special case of the application of Amdahl's law. The passage provides an example of a scenario where Amdahl's law represents the law of diminishing returns. In this scenario one is running a fixed sized computation that will use all available processors to their capacity and is considering what sort of return can be achieved by adding more processors to a machine. Applying Amdahl's law tells us that each new processor added to the system will add less usable power than the previous. In other words, each new processor yields diminishing returns.

From the passage provided, list the traits which are often associated with Procrastination (in a comma separated manner).

Procrastination is the action of unnecessarily and voluntarily delaying or postponing something despite knowing that there will be negative consequences for doing so. The word has originated from the Latin word procrastinatus, which itself evolved from the prefix pro-, meaning "forward," and crastinus, meaning "of tomorrow." Oftentimes, it is a habitual human behaviour. It is a common human experience involving delay in everyday chores or even putting off salient tasks such as attending an appointment, submitting a job report or academic assignment, or broaching a stressful issue with a partner. Although typically perceived as a negative trait due to its hindering effect on one's productivity often associated with depression, low self-esteem, guilt and inadequacy, it can also be considered a wise response to certain demands that could present risky or negative outcomes or require waiting for new information to arrive. From a cultural and a social perspective, students from both Western and non-Western cultures are found to exhibit academic procrastination, but for different reasons. Students from Western cultures tend to procrastinate in order to avoid doing worse than they have done before or from failing to learn as much as they should have, whereas students from non-Western cultures tend to procrastinate in order to avoid looking incompetent, or to avoid demonstrating a lack of ability in front of their peers. It is also important to consider how different cultural perspectives of time management can impact procrastination. For example, in cultures that have a multi-active view of time, people tend to place a higher value on making sure a job is done accurately before finishing. In cultures with a linear view of time, people tend to designate a certain amount of time on a task and stop once the allotted time has expired.

Based on the passage provided, here are the traits which are often associated with Procrastination: depression, low self-esteem, guilt, inadequacy.

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### Instruction: From the passage provided, list the traits which are often associated with Procrastination (in a comma separated manner). ### Context: Procrastination is the action of unnecessarily and voluntarily delaying or postponing something despite knowing that there will be negative consequences for doing so. The word has originated from the Latin word procrastinatus, which itself evolved from the prefix pro-, meaning "forward," and crastinus, meaning "of tomorrow." Oftentimes, it is a habitual human behaviour. It is a common human experience involving delay in everyday chores or even putting off salient tasks such as attending an appointment, submitting a job report or academic assignment, or broaching a stressful issue with a partner. Although typically perceived as a negative trait due to its hindering effect on one's productivity often associated with depression, low self-esteem, guilt and inadequacy, it can also be considered a wise response to certain demands that could present risky or negative outcomes or require waiting for new information to arrive. From a cultural and a social perspective, students from both Western and non-Western cultures are found to exhibit academic procrastination, but for different reasons. Students from Western cultures tend to procrastinate in order to avoid doing worse than they have done before or from failing to learn as much as they should have, whereas students from non-Western cultures tend to procrastinate in order to avoid looking incompetent, or to avoid demonstrating a lack of ability in front of their peers. It is also important to consider how different cultural perspectives of time management can impact procrastination. For example, in cultures that have a multi-active view of time, people tend to place a higher value on making sure a job is done accurately before finishing. In cultures with a linear view of time, people tend to designate a certain amount of time on a task and stop once the allotted time has expired. ### Answer: Based on the passage provided, here are the traits which are often associated with Procrastination: depression, low self-esteem, guilt, inadequacy.

Extract the names of the companies that built the Pacific Railroad

A transcontinental railroad in the United States is any continuous rail line connecting a location on the U.S. Pacific coast with one or more of the railroads of the nation's eastern trunk line rail systems operating between the Missouri or Mississippi Rivers and the U.S. Atlantic coast. The first concrete plan for a transcontinental railroad in the United States was presented to Congress by Asa Whitney in 1845. A series of transcontinental railroads built over the last third of the 19th century created a nationwide transportation network that united the country by rail. The first of these, the 3,103 km (1,928 mi) "Pacific Railroad", was built by the Central Pacific Railroad and Union Pacific Railroad to link the San Francisco Bay at Alameda, California, with the nation's existing eastern railroad network at Council Bluffs, Iowa/Omaha, Nebraska, thereby creating the world's first transcontinental railroad when it opened in 1869. Its construction was made possible by the US government under Pacific Railroad Acts of 1862, 1864, and 1867. Its original course was very close to current Interstate 80.

The "Pacific Railroad" was built by the Central Pacific Railroad and Union Pacific Railroad.

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### Instruction: Extract the names of the companies that built the Pacific Railroad ### Context: A transcontinental railroad in the United States is any continuous rail line connecting a location on the U.S. Pacific coast with one or more of the railroads of the nation's eastern trunk line rail systems operating between the Missouri or Mississippi Rivers and the U.S. Atlantic coast. The first concrete plan for a transcontinental railroad in the United States was presented to Congress by Asa Whitney in 1845. A series of transcontinental railroads built over the last third of the 19th century created a nationwide transportation network that united the country by rail. The first of these, the 3,103 km (1,928 mi) "Pacific Railroad", was built by the Central Pacific Railroad and Union Pacific Railroad to link the San Francisco Bay at Alameda, California, with the nation's existing eastern railroad network at Council Bluffs, Iowa/Omaha, Nebraska, thereby creating the world's first transcontinental railroad when it opened in 1869. Its construction was made possible by the US government under Pacific Railroad Acts of 1862, 1864, and 1867. Its original course was very close to current Interstate 80. ### Answer: The "Pacific Railroad" was built by the Central Pacific Railroad and Union Pacific Railroad.

Which leaders claimed the English throne in 1066?

In 1066, several rival claimants to the English throne emerged. Among them were Harold Godwinson (recognised as king by the Witenagemot after the death of Edward the Confessor), Harald Hardrada (King of Norway who claimed to be the rightful heir of Harthacnut) and Duke William II of Normandy (vassal to the King of France, and first cousin once-removed of Edward the Confessor). Harald and William both invaded separately in 1066. Godwinson successfully repelled the invasion by Hardrada, but ultimately lost the throne of England in the Norman conquest of England.

Harold Godwinson, Harald Hardrada, and Duke William II of Normandy all claimed the English throne in 1066.

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### Instruction: Which leaders claimed the English throne in 1066? ### Context: In 1066, several rival claimants to the English throne emerged. Among them were Harold Godwinson (recognised as king by the Witenagemot after the death of Edward the Confessor), Harald Hardrada (King of Norway who claimed to be the rightful heir of Harthacnut) and Duke William II of Normandy (vassal to the King of France, and first cousin once-removed of Edward the Confessor). Harald and William both invaded separately in 1066. Godwinson successfully repelled the invasion by Hardrada, but ultimately lost the throne of England in the Norman conquest of England. ### Answer: Harold Godwinson, Harald Hardrada, and Duke William II of Normandy all claimed the English throne in 1066.

Provide a list of ingredients to fill a burrito with

Burritos are filled with savory ingredients, most often a meat such as beef, chicken, or pork, and often include other ingredients, such as rice, cooked beans (either whole or refried), vegetables, such as lettuce and tomatoes, cheese, and condiments such as salsa, pico de gallo, guacamole, or crema. Burritos are often contrasted with similar dishes, such as tacos, in which a small hand-sized tortilla is folded in half around the ingredients rather than wrapped and sealed, or with enchiladas, which use corn masa tortillas, and are covered in a savory sauce, to be eaten with a fork and knife.

I’d fill a burrito with chicken, rice, refried beans, lettuce, tomatoes, and guacamole.

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### Instruction: Provide a list of ingredients to fill a burrito with ### Context: Burritos are filled with savory ingredients, most often a meat such as beef, chicken, or pork, and often include other ingredients, such as rice, cooked beans (either whole or refried), vegetables, such as lettuce and tomatoes, cheese, and condiments such as salsa, pico de gallo, guacamole, or crema. Burritos are often contrasted with similar dishes, such as tacos, in which a small hand-sized tortilla is folded in half around the ingredients rather than wrapped and sealed, or with enchiladas, which use corn masa tortillas, and are covered in a savory sauce, to be eaten with a fork and knife. ### Answer: I’d fill a burrito with chicken, rice, refried beans, lettuce, tomatoes, and guacamole.

Who is Ruth Bader Ginsburg?

Joan Ruth Bader Ginsburg (/ˈbeɪdər ˈɡɪnzbɜːrɡ/ BAY-dər GHINZ-burg; March 15, 1933 – September 18, 2020) was an American lawyer and jurist who served as an associate justice of the Supreme Court of the United States from 1993 until her death in 2020. She was nominated by President Bill Clinton to replace retiring justice Byron White, and at the time was generally viewed as a moderate consensus-builder. She eventually became part of the liberal wing of the Court as the Court shifted to the right over time. Ginsburg was the first Jewish woman and the second woman to serve on the Court, after Sandra Day O'Connor. During her tenure, Ginsburg wrote majority opinions, including United States v. Virginia (1996), Olmstead v. L.C. (1999), Friends of the Earth, Inc. v. Laidlaw Environmental Services, Inc. (2000), and City of Sherrill v. Oneida Indian Nation of New York (2005).

Joan Ruth Bader Ginsburg (/ˈbeɪdər ˈɡɪnzbɜːrɡ/ BAY-dər GHINZ-burg; March 15, 1933 – September 18, 2020) was an American lawyer and jurist who served as an associate justice of the Supreme Court of the United States from 1993 until her death in 2020. She was nominated by President Bill Clinton to replace retiring justice Byron White, and at the time was generally viewed as a moderate consensus-builder. She eventually became part of the liberal wing of the Court as the Court shifted to the right over time. Ginsburg was the first Jewish woman and the second woman to serve on the Court, after Sandra Day O'Connor. During her tenure, Ginsburg wrote majority opinions, including United States v. Virginia (1996), Olmstead v. L.C. (1999), Friends of the Earth, Inc. v. Laidlaw Environmental Services, Inc. (2000), and City of Sherrill v. Oneida Indian Nation of New York (2005). Ginsburg was born and grew up in Brooklyn, New York. Her older sister died when she was a baby, and her mother died shortly before Ginsburg graduated from high school. She earned her bachelor's degree at Cornell University and married Martin D. Ginsburg, becoming a mother before starting law school at Harvard, where she was one of the few women in her class. Ginsburg transferred to Columbia Law School, where she graduated joint first in her class. During the early 1960s she worked with the Columbia Law School Project on International Procedure, learned Swedish, and co-authored a book with Swedish jurist Anders Bruzelius; her work in Sweden profoundly influenced her thinking on gender equality. She then became a professor at Rutgers Law School and Columbia Law School, teaching civil procedure as one of the few women in her field. Ginsburg spent much of her legal career as an advocate for gender equality and women's rights, winning many arguments before the Supreme Court. She advocated as a volunteer attorney for the American Civil Liberties Union and was a member of its board of directors and one of its general counsel in the 1970s. In 1980, President Jimmy Carter appointed her to the U.S. Court of Appeals for the District of Columbia Circuit, where she served until her appointment to the Supreme Court in 1993. Between O'Connor's retirement in 2006 and the appointment of Sonia Sotomayor in 2009, she was the only female justice on the Supreme Court. During that time, Ginsburg became more forceful with her dissents, such as with Ledbetter v. Goodyear Tire & Rubber Co. (2007). Ginsburg's dissenting opinion was credited with inspiring the Lilly Ledbetter Fair Pay Act which was signed into law by President Barack Obama in 2009, making it easier for employees to win pay discrimination claims. Ginsburg received attention in American popular culture for her passionate dissents in numerous cases, widely seen as reflecting paradigmatically liberal views of the law. She was dubbed "The Notorious R.B.G.", and she later embraced the moniker. Despite two bouts with cancer and public pleas from liberal law scholars, she decided not to retire in 2013 or 2014 when Obama and a Democratic-controlled Senate could appoint and confirm her successor. Ginsburg died at her home in Washington, D.C., on September 18, 2020, at the age of 87, from complications of metastatic pancreatic cancer. The vacancy created by her death was filled 39 days later by Amy Coney Barrett, a conservative. The result was one of three major rightward shifts in the Court since 1953, following the appointment of Clarence Thomas to replace Thurgood Marshall in 1991 and the appointment of Warren Burger to replace Earl Warren in 1969.

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### Instruction: Who is Ruth Bader Ginsburg? ### Context: Joan Ruth Bader Ginsburg (/ˈbeɪdər ˈɡɪnzbɜːrɡ/ BAY-dər GHINZ-burg; March 15, 1933 – September 18, 2020) was an American lawyer and jurist who served as an associate justice of the Supreme Court of the United States from 1993 until her death in 2020. She was nominated by President Bill Clinton to replace retiring justice Byron White, and at the time was generally viewed as a moderate consensus-builder. She eventually became part of the liberal wing of the Court as the Court shifted to the right over time. Ginsburg was the first Jewish woman and the second woman to serve on the Court, after Sandra Day O'Connor. During her tenure, Ginsburg wrote majority opinions, including United States v. Virginia (1996), Olmstead v. L.C. (1999), Friends of the Earth, Inc. v. Laidlaw Environmental Services, Inc. (2000), and City of Sherrill v. Oneida Indian Nation of New York (2005). ### Answer: Joan Ruth Bader Ginsburg (/ˈbeɪdər ˈɡɪnzbɜːrɡ/ BAY-dər GHINZ-burg; March 15, 1933 – September 18, 2020) was an American lawyer and jurist who served as an associate justice of the Supreme Court of the United States from 1993 until her death in 2020. She was nominated by President Bill Clinton to replace retiring justice Byron White, and at the time was generally viewed as a moderate consensus-builder. She eventually became part of the liberal wing of the Court as the Court shifted to the right over time. Ginsburg was the first Jewish woman and the second woman to serve on the Court, after Sandra Day O'Connor. During her tenure, Ginsburg wrote majority opinions, including United States v. Virginia (1996), Olmstead v. L.C. (1999), Friends of the Earth, Inc. v. Laidlaw Environmental Services, Inc. (2000), and City of Sherrill v. Oneida Indian Nation of New York (2005). Ginsburg was born and grew up in Brooklyn, New York. Her older sister died when she was a baby, and her mother died shortly before Ginsburg graduated from high school. She earned her bachelor's degree at Cornell University and married Martin D. Ginsburg, becoming a mother before starting law school at Harvard, where she was one of the few women in her class. Ginsburg transferred to Columbia Law School, where she graduated joint first in her class. During the early 1960s she worked with the Columbia Law School Project on International Procedure, learned Swedish, and co-authored a book with Swedish jurist Anders Bruzelius; her work in Sweden profoundly influenced her thinking on gender equality. She then became a professor at Rutgers Law School and Columbia Law School, teaching civil procedure as one of the few women in her field. Ginsburg spent much of her legal career as an advocate for gender equality and women's rights, winning many arguments before the Supreme Court. She advocated as a volunteer attorney for the American Civil Liberties Union and was a member of its board of directors and one of its general counsel in the 1970s. In 1980, President Jimmy Carter appointed her to the U.S. Court of Appeals for the District of Columbia Circuit, where she served until her appointment to the Supreme Court in 1993. Between O'Connor's retirement in 2006 and the appointment of Sonia Sotomayor in 2009, she was the only female justice on the Supreme Court. During that time, Ginsburg became more forceful with her dissents, such as with Ledbetter v. Goodyear Tire & Rubber Co. (2007). Ginsburg's dissenting opinion was credited with inspiring the Lilly Ledbetter Fair Pay Act which was signed into law by President Barack Obama in 2009, making it easier for employees to win pay discrimination claims. Ginsburg received attention in American popular culture for her passionate dissents in numerous cases, widely seen as reflecting paradigmatically liberal views of the law. She was dubbed "The Notorious R.B.G.", and she later embraced the moniker. Despite two bouts with cancer and public pleas from liberal law scholars, she decided not to retire in 2013 or 2014 when Obama and a Democratic-controlled Senate could appoint and confirm her successor. Ginsburg died at her home in Washington, D.C., on September 18, 2020, at the age of 87, from complications of metastatic pancreatic cancer. The vacancy created by her death was filled 39 days later by Amy Coney Barrett, a conservative. The result was one of three major rightward shifts in the Court since 1953, following the appointment of Clarence Thomas to replace Thurgood Marshall in 1991 and the appointment of Warren Burger to replace Earl Warren in 1969.

How well establish is the Cuban red-tailed hawk as a species?

The Cuban red-tailed hawk (Buteo jamaicensis solitudinus) is a subspecies of red-tailed hawk native to the Bahamas, Florida, and Cuba. Like other island races, the validity of this subspecies has been called into question, but it has its defenders as well. Generally, this subspecies appears as a diminutive version of B. j. umbrinus in plumage characteristics but is considerably isolated from that race.

The validity of this subspecies has been called into question, but it has its defenders as well.

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### Instruction: How well establish is the Cuban red-tailed hawk as a species? ### Context: The Cuban red-tailed hawk (Buteo jamaicensis solitudinus) is a subspecies of red-tailed hawk native to the Bahamas, Florida, and Cuba. Like other island races, the validity of this subspecies has been called into question, but it has its defenders as well. Generally, this subspecies appears as a diminutive version of B. j. umbrinus in plumage characteristics but is considerably isolated from that race. ### Answer: The validity of this subspecies has been called into question, but it has its defenders as well.

From this passage, tell me what was Osborne Computer Corporation's mistake.

The Osborne effect is a social phenomenon of customers canceling or deferring orders for the current, soon-to-be-obsolete product as an unexpected drawback of a company's announcing a future product prematurely. It is an example of cannibalization. The term alludes to the Osborne Computer Corporation, whose second product did not become available until more than a year after it was announced. The company's subsequent bankruptcy was widely blamed on reduced sales after the announcement. The Osborne Effect states that prematurely discussing future, unavailable products damages sales of existing products. The name comes from the planned replacement of the Osborne 1, an early personal computer first sold by the Osborne Computer Corporation in 1981. In 1983, founder Adam Osborne pre-announced several next-generation computer models (the Osborne Executive and Osborne Vixen), which were only prototypes, highlighting the fact that they would outperform the existing model as the prototypes dramatically cut down assembly time. A widely held belief was that sales of the Osborne 1 fell sharply as customers anticipated those more advanced systems, leading to a sales decline from which Osborne Computer was unable to recover. This belief appeared in the media almost immediately after the company's September 1983 bankruptcy: To give the jazzy $2,495 Osborne Executive a running start, Adam began orchestrating publicity early in 1983. We, along with many other magazines, were shown the machine in locked hotel rooms. We were required not to have anything in print about it until the planned release date in mid-April. As far as we know, nothing did appear in print, but dealers heard about the plans and cancelled orders for the Osborne 1 in droves. In early April, Osborne told dealers he would be showing them the machine on a one-week tour the week of 17 April, and emphasized that the new machine was not a competitor for the Osborne 1. But dealers didn't react the way Osborne expected; said Osborne, "All of them just cancelled their orders for the Osborne 1." Osborne reacted by drastically cutting prices on the Osborne 1 in an effort to stimulate cash flow. But nothing seemed to work, and for several months sales were practically non-existent. Pre-announcement is done for several reasons: to reassure current customers that there is improvement or lower cost coming, to increase the interest of the media and investors in the company's future prospects, and to intimidate or confuse competitors. When done correctly, the sales or cash flow impact to the company is minimal, with the revenue drop for the current product being offset by orders or completed sales of the new product as it becomes available. However, when the Osborne effect occurs, the quantity of unsold goods increases and the company must react by discounting and/or lowering production of the current product, both of which depress cash flow.

It's widely believed that Osborne Computer Corporation's bankruptcy was caused by the premature announcement of some highly performant successor models to their flagship Osborne 1 personal computer. The announcement was initially restricted, but as the news spread dealers cancelled orders for Osborne 1 in droves. The company drastically reduced the prices of Osborne 1 in reaction. This, however, didn't stop the decline in sales.

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### Instruction: From this passage, tell me what was Osborne Computer Corporation's mistake. ### Context: The Osborne effect is a social phenomenon of customers canceling or deferring orders for the current, soon-to-be-obsolete product as an unexpected drawback of a company's announcing a future product prematurely. It is an example of cannibalization. The term alludes to the Osborne Computer Corporation, whose second product did not become available until more than a year after it was announced. The company's subsequent bankruptcy was widely blamed on reduced sales after the announcement. The Osborne Effect states that prematurely discussing future, unavailable products damages sales of existing products. The name comes from the planned replacement of the Osborne 1, an early personal computer first sold by the Osborne Computer Corporation in 1981. In 1983, founder Adam Osborne pre-announced several next-generation computer models (the Osborne Executive and Osborne Vixen), which were only prototypes, highlighting the fact that they would outperform the existing model as the prototypes dramatically cut down assembly time. A widely held belief was that sales of the Osborne 1 fell sharply as customers anticipated those more advanced systems, leading to a sales decline from which Osborne Computer was unable to recover. This belief appeared in the media almost immediately after the company's September 1983 bankruptcy: To give the jazzy $2,495 Osborne Executive a running start, Adam began orchestrating publicity early in 1983. We, along with many other magazines, were shown the machine in locked hotel rooms. We were required not to have anything in print about it until the planned release date in mid-April. As far as we know, nothing did appear in print, but dealers heard about the plans and cancelled orders for the Osborne 1 in droves. In early April, Osborne told dealers he would be showing them the machine on a one-week tour the week of 17 April, and emphasized that the new machine was not a competitor for the Osborne 1. But dealers didn't react the way Osborne expected; said Osborne, "All of them just cancelled their orders for the Osborne 1." Osborne reacted by drastically cutting prices on the Osborne 1 in an effort to stimulate cash flow. But nothing seemed to work, and for several months sales were practically non-existent. Pre-announcement is done for several reasons: to reassure current customers that there is improvement or lower cost coming, to increase the interest of the media and investors in the company's future prospects, and to intimidate or confuse competitors. When done correctly, the sales or cash flow impact to the company is minimal, with the revenue drop for the current product being offset by orders or completed sales of the new product as it becomes available. However, when the Osborne effect occurs, the quantity of unsold goods increases and the company must react by discounting and/or lowering production of the current product, both of which depress cash flow. ### Answer: It's widely believed that Osborne Computer Corporation's bankruptcy was caused by the premature announcement of some highly performant successor models to their flagship Osborne 1 personal computer. The announcement was initially restricted, but as the news spread dealers cancelled orders for Osborne 1 in droves. The company drastically reduced the prices of Osborne 1 in reaction. This, however, didn't stop the decline in sales.

From the passage provided, extract the cost of building Taj Mahal

The Taj Mahal (/ˌtɑːdʒ məˈhɑːl, ˌtɑːʒ-/; lit. 'Crown of the Palace') is an ivory-white marble mausoleum on the right bank of the river Yamuna in Agra, Uttar Pradesh, India. It was commissioned in 1631 by the fifth Mughal emperor, Shah Jahan (r. 1628–1658) to house the tomb of his favourite wife, Mumtaz Mahal; it also houses the tomb of Shah Jahan himself. The tomb is the centrepiece of a 17-hectare (42-acre) complex, which includes a mosque and a guest house, and is set in formal gardens bounded on three sides by a crenellated wall. Construction of the mausoleum was essentially completed in 1643, but work continued on other phases of the project for another 10 years. The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around ₹32 million, which in 2020 would be approximately ₹70 billion (about US $1 billion). The construction project employed some 20,000 artisans under the guidance of a board of architects led by Ustad Ahmad Lahauri, the emperor’s court architect. Various types of symbolism have been employed in the Taj to reflect natural beauty and divinity. The Taj Mahal was designated as a UNESCO World Heritage Site in 1983 for being "the jewel of Muslim art in India and one of the universally admired masterpieces of the world's heritage". It is regarded by many as the best example of Mughal architecture and a symbol of India's rich history. The Taj Mahal attracts more than 6 million visitors a year and in 2007, it was declared a winner of the New 7 Wonders of the World (2000–2007) initiative.

The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around ₹32 million, which in 2020 would be approximately ₹70 billion (about US $1 billion)

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### Instruction: From the passage provided, extract the cost of building Taj Mahal ### Context: The Taj Mahal (/ˌtɑːdʒ məˈhɑːl, ˌtɑːʒ-/; lit. 'Crown of the Palace') is an ivory-white marble mausoleum on the right bank of the river Yamuna in Agra, Uttar Pradesh, India. It was commissioned in 1631 by the fifth Mughal emperor, Shah Jahan (r. 1628–1658) to house the tomb of his favourite wife, Mumtaz Mahal; it also houses the tomb of Shah Jahan himself. The tomb is the centrepiece of a 17-hectare (42-acre) complex, which includes a mosque and a guest house, and is set in formal gardens bounded on three sides by a crenellated wall. Construction of the mausoleum was essentially completed in 1643, but work continued on other phases of the project for another 10 years. The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around ₹32 million, which in 2020 would be approximately ₹70 billion (about US $1 billion). The construction project employed some 20,000 artisans under the guidance of a board of architects led by Ustad Ahmad Lahauri, the emperor’s court architect. Various types of symbolism have been employed in the Taj to reflect natural beauty and divinity. The Taj Mahal was designated as a UNESCO World Heritage Site in 1983 for being "the jewel of Muslim art in India and one of the universally admired masterpieces of the world's heritage". It is regarded by many as the best example of Mughal architecture and a symbol of India's rich history. The Taj Mahal attracts more than 6 million visitors a year and in 2007, it was declared a winner of the New 7 Wonders of the World (2000–2007) initiative. ### Answer: The Taj Mahal complex is believed to have been completed in its entirety in 1653 at a cost estimated at the time to be around ₹32 million, which in 2020 would be approximately ₹70 billion (about US $1 billion)

Give a list of all the names of people that Arboe trained under?

Arboe was born at Rønne on the island of Bornholm, Denmark. He was the son of Otto Henrik Arboe and Oliva Elisabeth Saxtorph. He attended the Royal Danish Academy of Fine Arts building school and ornament school from 1855 to 1862 where he was a student of Gustav Friedrich Hetsch (1788–1864) and also trained under Niels Sigfred Nebelong (1806–1871).

Gustav Friedrich Hetsch and Niels Sigfred Nebelong

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### Instruction: Give a list of all the names of people that Arboe trained under? ### Context: Arboe was born at Rønne on the island of Bornholm, Denmark. He was the son of Otto Henrik Arboe and Oliva Elisabeth Saxtorph. He attended the Royal Danish Academy of Fine Arts building school and ornament school from 1855 to 1862 where he was a student of Gustav Friedrich Hetsch (1788–1864) and also trained under Niels Sigfred Nebelong (1806–1871). ### Answer: Gustav Friedrich Hetsch and Niels Sigfred Nebelong

List the states which are part of the western ghat

The Western Ghats extend from the Satpura Range in the north, stretching from Gujarat to Tamil Nadu. It traverses south through the states of Maharashtra, Goa, Karnataka and Kerala. Major gaps in the range are the Goa Gap, between the Maharashtra and Karnataka sections, and the Palghat Gap on the Tamil Nadu and Kerala border between the Nilgiri Mountains and the Anaimalai Hills. The mountains intercept the rain-bearing westerly monsoon winds, and are consequently an area of high rainfall, particularly on their western side. The dense forests also contribute to the precipitation of the area by acting as a substrate for condensation of moist rising orographic winds from the sea, and releasing much of the moisture back into the air via transpiration, allowing it to later condense and fall again as rain.[citation needed] The northern portion of the narrow coastal plain between the Western Ghats and the Arabian Sea is known as the Konkan, the central portion is called Kanara and the southern portion is called Malabar. The foothill region east of the Ghats in Maharashtra is known as Desh, while the eastern foothills of the central Karnataka state is known as Malenadu. The range is known as Sahyadri in Maharashtra and Karnataka. The Western Ghats meet the Eastern Ghats at the Nilgiri mountains in northwestern Tamil Nadu. The Nilgiris connect the Biligiriranga Hills in southeastern Karnataka with the Shevaroys and Tirumala hills. South of the Palghat Gap are the Anamala Hills, located in western Tamil Nadu and Kerala with smaller ranges further south, including the Cardamom Hills, then Aryankavu pass, and Aralvaimozhi pass near Kanyakumari. The range is known as Sahyan or Sahian in Kerala. In the southern part of the range is Anamudi (2,695 metres (8,842 ft)), the highest peak in the Western Ghats. Ooty is called the Queen of the Western Ghats.

Western ghats stretches from Gujurat to Tamil Nadu states of India. It traverses south through the states of Maharashtra, Goa, Karnataka and Kerala. The northern portion of western ghats is called Konkan, the central is called Kanara and the southern portion is called Malabar.

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### Instruction: List the states which are part of the western ghat ### Context: The Western Ghats extend from the Satpura Range in the north, stretching from Gujarat to Tamil Nadu. It traverses south through the states of Maharashtra, Goa, Karnataka and Kerala. Major gaps in the range are the Goa Gap, between the Maharashtra and Karnataka sections, and the Palghat Gap on the Tamil Nadu and Kerala border between the Nilgiri Mountains and the Anaimalai Hills. The mountains intercept the rain-bearing westerly monsoon winds, and are consequently an area of high rainfall, particularly on their western side. The dense forests also contribute to the precipitation of the area by acting as a substrate for condensation of moist rising orographic winds from the sea, and releasing much of the moisture back into the air via transpiration, allowing it to later condense and fall again as rain.[citation needed] The northern portion of the narrow coastal plain between the Western Ghats and the Arabian Sea is known as the Konkan, the central portion is called Kanara and the southern portion is called Malabar. The foothill region east of the Ghats in Maharashtra is known as Desh, while the eastern foothills of the central Karnataka state is known as Malenadu. The range is known as Sahyadri in Maharashtra and Karnataka. The Western Ghats meet the Eastern Ghats at the Nilgiri mountains in northwestern Tamil Nadu. The Nilgiris connect the Biligiriranga Hills in southeastern Karnataka with the Shevaroys and Tirumala hills. South of the Palghat Gap are the Anamala Hills, located in western Tamil Nadu and Kerala with smaller ranges further south, including the Cardamom Hills, then Aryankavu pass, and Aralvaimozhi pass near Kanyakumari. The range is known as Sahyan or Sahian in Kerala. In the southern part of the range is Anamudi (2,695 metres (8,842 ft)), the highest peak in the Western Ghats. Ooty is called the Queen of the Western Ghats. ### Answer: Western ghats stretches from Gujurat to Tamil Nadu states of India. It traverses south through the states of Maharashtra, Goa, Karnataka and Kerala. The northern portion of western ghats is called Konkan, the central is called Kanara and the southern portion is called Malabar.

What is HiFI?

High fidelity (often shortened to Hi-Fi or HiFi) is the high-quality reproduction of sound. It is popular with audiophiles and home audio enthusiasts. Ideally, high-fidelity equipment has inaudible noise and distortion, and a flat (neutral, uncolored) frequency response within the human hearing range. High fidelity contrasts with the lower-quality “lo-fi” sound produced by inexpensive audio equipment, AM radio, or the inferior quality of sound reproduction that can be heard in recordings made until the late 1940s.

Bell Laboratories began experimenting with a range of recording techniques in the early 1930s. Performances by Leopold Stokowski and the Philadelphia Orchestra were recorded in 1931 and 1932 using telephone lines between the Academy of Music in Philadelphia and the Bell labs in New Jersey. Some multitrack recordings were made on optical sound film, which led to new advances used primarily by MGM (as early as 1937) and Twentieth Century Fox Film Corporation (as early as 1941). RCA Victor began recording performances by several orchestras using optical sound around 1941, resulting in higher-fidelity masters for 78-rpm discs. During the 1930s, Avery Fisher, an amateur violinist, began experimenting with audio design and acoustics. He wanted to make a radio that would sound like he was listening to a live orchestra—that would achieve high fidelity to the original sound. After World War II, Harry F. Olson conducted an experiment whereby test subjects listened to a live orchestra through a hidden variable acoustic filter. The results proved that listeners preferred high-fidelity reproduction, once the noise and distortion introduced by early sound equipment was removed.[citation needed] Beginning in 1948, several innovations created the conditions that made major improvements of home-audio quality possible: Reel-to-reel audio tape recording, based on technology taken from Germany after WWII, helped musical artists such as Bing Crosby make and distribute recordings with better fidelity. The advent of the 33⅓ rpm Long Play (LP) microgroove vinyl record, with lower surface noise and quantitatively specified equalization curves as well as noise-reduction and dynamic range systems. Classical music fans, who were opinion leaders in the audio market, quickly adopted LPs because, unlike with older records, most classical works would fit on a single LP. Higher quality turntables, with more responsive needles FM radio, with wider audio bandwidth and less susceptibility to signal interference and fading than AM radio. Better amplifier designs, with more attention to frequency response and much higher power output capability, reproducing audio without perceptible distortion. New loudspeaker designs, including acoustic suspension, developed by Edgar Villchur and Henry Kloss with improved bass frequency response. In the 1950s, audio manufacturers employed the phrase high fidelity as a marketing term to describe records and equipment intended to provide faithful sound reproduction. Many consumers found the difference in quality compared to the then-standard AM radios and 78-rpm records readily apparent and bought high-fidelity phonographs and 33⅓ LPs such as RCA's New Orthophonics and London's FFRR (Full Frequency Range Recording, a UK Decca system). Audiophiles paid attention to technical characteristics and bought individual components, such as separate turntables, radio tuners, preamplifiers, power amplifiers and loudspeakers. Some enthusiasts even assembled their own loudspeaker systems. With the advent of integrated multi-speaker console systems in the 1950s, hi-fi became a generic term for home sound equipment, to some extent displacing phonograph and record player. In the late 1950s and early 1960s, the development of stereophonic equipment and recordings led to the next wave of home-audio improvement, and in common parlance stereo displaced hi-fi. Records were now played on a stereo. In the world of the audiophile, however, the concept of high fidelity continued to refer to the goal of highly accurate sound reproduction and to the technological resources available for approaching that goal. This period is regarded as the "Golden Age of Hi-Fi", when vacuum tube equipment manufacturers of the time produced many models considered superior by modern audiophiles, and just before solid state (transistorized) equipment was introduced to the market, subsequently replacing tube equipment as the mainstream technology. In the 1960s, the FTC with the help of the audio manufacturers came up with a definition to identify high fidelity equipment so that the manufacturers could clearly state if they meet the requirements and reduce misleading advertisements. The metal–oxide–semiconductor field-effect transistor (MOSFET) was adapted into a power MOSFET for audio by Jun-ichi Nishizawa at Tohoku University in 1974. Power MOSFETs were soon manufactured by Yamaha for their hi-fi audio amplifiers. JVC, Pioneer Corporation, Sony and Toshiba also began manufacturing amplifiers with power MOSFETs in 1974. In 1977, Hitachi introduced the LDMOS (lateral diffused MOS), a type of power MOSFET. Hitachi was the only LDMOS manufacturer between 1977 and 1983, during which time LDMOS was used in audio power amplifiers from manufacturers such as HH Electronics (V-series) and Ashly Audio, and were used for music and public address systems. Class-D amplifiers became successful in the mid-1980s when low-cost, fast-switching MOSFETs were made available. Many transistor amps use MOSFET devices in their power sections, because their distortion curve is more tube-like. A popular type of system for reproducing music beginning in the 1970s was the integrated music centre—which combined a phonograph turntable, AM-FM radio tuner, tape player, preamplifier, and power amplifier in one package, often sold with its own separate, detachable or integrated speakers. These systems advertised their simplicity. The consumer did not have to select and assemble individual components or be familiar with impedance and power ratings. Purists generally avoid referring to these systems as high fidelity, though some are capable of very good quality sound reproduction. Audiophiles in the 1970s and 1980s preferred to buy each component separately. That way, they could choose models of each component with the specifications that they desired. In the 1980s, a number of audiophile magazines became available, offering reviews of components and articles on how to choose and test speakers, amplifiers, and other components. Listening tests See also: Codec listening test Listening tests are used by hi-fi manufacturers, audiophile magazines, and audio engineering researchers and scientists. If a listening test is done in such a way that the listener who is assessing the sound quality of a component or recording can see the components that are being used for the test (e.g., the same musical piece listened to through a tube power amplifier and a solid-state amplifier), then it is possible that the listener's pre-existing biases towards or against certain components or brands could affect their judgment. To respond to this issue, researchers began to use blind tests, in which listeners cannot see the components being tested. A commonly used variant of this test is the ABX test. A subject is presented with two known samples (sample A, the reference, and sample B, an alternative), and one unknown sample X, for three samples total. X is randomly selected from A and B, and the subject identifies X as being either A or B. Although there is no way to prove that a certain methodology is transparent, a properly conducted double-blind test can prove that a method is not transparent. Blind tests are sometimes used as part of attempts to ascertain whether certain audio components (such as expensive, exotic cables) have any subjectively perceivable effect on sound quality. Data gleaned from these blind tests is not accepted by some audiophile magazines such as Stereophile and The Absolute Sound in their evaluations of audio equipment. John Atkinson, current editor of Stereophile, stated that he once purchased a solid-state amplifier, the Quad 405, in 1978 after seeing the results from blind tests, but came to realize months later that "the magic was gone" until he replaced it with a tube amp. Robert Harley of The Absolute Sound wrote, in 2008, that: "...blind listening tests fundamentally distort the listening process and are worthless in determining the audibility of a certain phenomenon." Doug Schneider, editor of the online Soundstage network, refuted this position with two editorials in 2009. He stated: "Blind tests are at the core of the decades' worth of research into loudspeaker design done at Canada's National Research Council (NRC). The NRC researchers knew that for their result to be credible within the scientific community and to have the most meaningful results, they had to eliminate bias, and blind testing was the only way to do so." Many Canadian companies such as Axiom, Energy, Mirage, Paradigm, PSB, and Revel use blind testing extensively in designing their loudspeakers. Audio professional Dr. Sean Olive of Harman International shares this view.

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### Instruction: What is HiFI? ### Context: High fidelity (often shortened to Hi-Fi or HiFi) is the high-quality reproduction of sound. It is popular with audiophiles and home audio enthusiasts. Ideally, high-fidelity equipment has inaudible noise and distortion, and a flat (neutral, uncolored) frequency response within the human hearing range. High fidelity contrasts with the lower-quality “lo-fi” sound produced by inexpensive audio equipment, AM radio, or the inferior quality of sound reproduction that can be heard in recordings made until the late 1940s. ### Answer: Bell Laboratories began experimenting with a range of recording techniques in the early 1930s. Performances by Leopold Stokowski and the Philadelphia Orchestra were recorded in 1931 and 1932 using telephone lines between the Academy of Music in Philadelphia and the Bell labs in New Jersey. Some multitrack recordings were made on optical sound film, which led to new advances used primarily by MGM (as early as 1937) and Twentieth Century Fox Film Corporation (as early as 1941). RCA Victor began recording performances by several orchestras using optical sound around 1941, resulting in higher-fidelity masters for 78-rpm discs. During the 1930s, Avery Fisher, an amateur violinist, began experimenting with audio design and acoustics. He wanted to make a radio that would sound like he was listening to a live orchestra—that would achieve high fidelity to the original sound. After World War II, Harry F. Olson conducted an experiment whereby test subjects listened to a live orchestra through a hidden variable acoustic filter. The results proved that listeners preferred high-fidelity reproduction, once the noise and distortion introduced by early sound equipment was removed.[citation needed] Beginning in 1948, several innovations created the conditions that made major improvements of home-audio quality possible: Reel-to-reel audio tape recording, based on technology taken from Germany after WWII, helped musical artists such as Bing Crosby make and distribute recordings with better fidelity. The advent of the 33⅓ rpm Long Play (LP) microgroove vinyl record, with lower surface noise and quantitatively specified equalization curves as well as noise-reduction and dynamic range systems. Classical music fans, who were opinion leaders in the audio market, quickly adopted LPs because, unlike with older records, most classical works would fit on a single LP. Higher quality turntables, with more responsive needles FM radio, with wider audio bandwidth and less susceptibility to signal interference and fading than AM radio. Better amplifier designs, with more attention to frequency response and much higher power output capability, reproducing audio without perceptible distortion. New loudspeaker designs, including acoustic suspension, developed by Edgar Villchur and Henry Kloss with improved bass frequency response. In the 1950s, audio manufacturers employed the phrase high fidelity as a marketing term to describe records and equipment intended to provide faithful sound reproduction. Many consumers found the difference in quality compared to the then-standard AM radios and 78-rpm records readily apparent and bought high-fidelity phonographs and 33⅓ LPs such as RCA's New Orthophonics and London's FFRR (Full Frequency Range Recording, a UK Decca system). Audiophiles paid attention to technical characteristics and bought individual components, such as separate turntables, radio tuners, preamplifiers, power amplifiers and loudspeakers. Some enthusiasts even assembled their own loudspeaker systems. With the advent of integrated multi-speaker console systems in the 1950s, hi-fi became a generic term for home sound equipment, to some extent displacing phonograph and record player. In the late 1950s and early 1960s, the development of stereophonic equipment and recordings led to the next wave of home-audio improvement, and in common parlance stereo displaced hi-fi. Records were now played on a stereo. In the world of the audiophile, however, the concept of high fidelity continued to refer to the goal of highly accurate sound reproduction and to the technological resources available for approaching that goal. This period is regarded as the "Golden Age of Hi-Fi", when vacuum tube equipment manufacturers of the time produced many models considered superior by modern audiophiles, and just before solid state (transistorized) equipment was introduced to the market, subsequently replacing tube equipment as the mainstream technology. In the 1960s, the FTC with the help of the audio manufacturers came up with a definition to identify high fidelity equipment so that the manufacturers could clearly state if they meet the requirements and reduce misleading advertisements. The metal–oxide–semiconductor field-effect transistor (MOSFET) was adapted into a power MOSFET for audio by Jun-ichi Nishizawa at Tohoku University in 1974. Power MOSFETs were soon manufactured by Yamaha for their hi-fi audio amplifiers. JVC, Pioneer Corporation, Sony and Toshiba also began manufacturing amplifiers with power MOSFETs in 1974. In 1977, Hitachi introduced the LDMOS (lateral diffused MOS), a type of power MOSFET. Hitachi was the only LDMOS manufacturer between 1977 and 1983, during which time LDMOS was used in audio power amplifiers from manufacturers such as HH Electronics (V-series) and Ashly Audio, and were used for music and public address systems. Class-D amplifiers became successful in the mid-1980s when low-cost, fast-switching MOSFETs were made available. Many transistor amps use MOSFET devices in their power sections, because their distortion curve is more tube-like. A popular type of system for reproducing music beginning in the 1970s was the integrated music centre—which combined a phonograph turntable, AM-FM radio tuner, tape player, preamplifier, and power amplifier in one package, often sold with its own separate, detachable or integrated speakers. These systems advertised their simplicity. The consumer did not have to select and assemble individual components or be familiar with impedance and power ratings. Purists generally avoid referring to these systems as high fidelity, though some are capable of very good quality sound reproduction. Audiophiles in the 1970s and 1980s preferred to buy each component separately. That way, they could choose models of each component with the specifications that they desired. In the 1980s, a number of audiophile magazines became available, offering reviews of components and articles on how to choose and test speakers, amplifiers, and other components. Listening tests See also: Codec listening test Listening tests are used by hi-fi manufacturers, audiophile magazines, and audio engineering researchers and scientists. If a listening test is done in such a way that the listener who is assessing the sound quality of a component or recording can see the components that are being used for the test (e.g., the same musical piece listened to through a tube power amplifier and a solid-state amplifier), then it is possible that the listener's pre-existing biases towards or against certain components or brands could affect their judgment. To respond to this issue, researchers began to use blind tests, in which listeners cannot see the components being tested. A commonly used variant of this test is the ABX test. A subject is presented with two known samples (sample A, the reference, and sample B, an alternative), and one unknown sample X, for three samples total. X is randomly selected from A and B, and the subject identifies X as being either A or B. Although there is no way to prove that a certain methodology is transparent, a properly conducted double-blind test can prove that a method is not transparent. Blind tests are sometimes used as part of attempts to ascertain whether certain audio components (such as expensive, exotic cables) have any subjectively perceivable effect on sound quality. Data gleaned from these blind tests is not accepted by some audiophile magazines such as Stereophile and The Absolute Sound in their evaluations of audio equipment. John Atkinson, current editor of Stereophile, stated that he once purchased a solid-state amplifier, the Quad 405, in 1978 after seeing the results from blind tests, but came to realize months later that "the magic was gone" until he replaced it with a tube amp. Robert Harley of The Absolute Sound wrote, in 2008, that: "...blind listening tests fundamentally distort the listening process and are worthless in determining the audibility of a certain phenomenon." Doug Schneider, editor of the online Soundstage network, refuted this position with two editorials in 2009. He stated: "Blind tests are at the core of the decades' worth of research into loudspeaker design done at Canada's National Research Council (NRC). The NRC researchers knew that for their result to be credible within the scientific community and to have the most meaningful results, they had to eliminate bias, and blind testing was the only way to do so." Many Canadian companies such as Axiom, Energy, Mirage, Paradigm, PSB, and Revel use blind testing extensively in designing their loudspeakers. Audio professional Dr. Sean Olive of Harman International shares this view.

Extract the publications that favorably reviewed "If I Die in a Combat Zone, Box Me Up and Ship Me Home" and put them in a comma separated list.

If I Die in a Combat Zone, Box Me Up and Ship Me Home received warm reviews from critics. Observed by the Washington Star as possibly "the single greatest piece of work to come out of Vietnam", with equally positive reviews from The Guardian, Gloria Emerson of the New York Times and was described as a personal account of "aching clarity... A beautiful, painful book," by the New York Times Book Review. Similar reviews were given from The Times, The Washington Post, The Sunday Times, The Financial Times and Time Magazine who cited O'Brien as "Perhaps the best writer about Vietnam".

The Washington Star, The Guardian, the New York Times Book Review, The Times, The Washington Post, The Sunday Times, The Financial Times, Time Magazine

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### Instruction: Extract the publications that favorably reviewed "If I Die in a Combat Zone, Box Me Up and Ship Me Home" and put them in a comma separated list. ### Context: If I Die in a Combat Zone, Box Me Up and Ship Me Home received warm reviews from critics. Observed by the Washington Star as possibly "the single greatest piece of work to come out of Vietnam", with equally positive reviews from The Guardian, Gloria Emerson of the New York Times and was described as a personal account of "aching clarity... A beautiful, painful book," by the New York Times Book Review. Similar reviews were given from The Times, The Washington Post, The Sunday Times, The Financial Times and Time Magazine who cited O'Brien as "Perhaps the best writer about Vietnam". ### Answer: The Washington Star, The Guardian, the New York Times Book Review, The Times, The Washington Post, The Sunday Times, The Financial Times, Time Magazine

How large is the runway of the Richton-Perry County Airport?

Richton-Perry County Airport covers an area of 55 acres (22 ha) at an elevation of 167 feet (51 m) above mean sea level. It has one runway designated 18/36 with an asphalt surface measuring 3,000 by 60 feet (914 x 18 m). For the 12-month period ending November 17, 2011, the airport had 1,400 general aviation aircraft operations, an average of 116 per month. At that time there were two single-engine aircraft based at this airport.

The single runway at the Richton-Perry County Airport is 18000 square feet in area (it's dimensions are 3,000 by 60 feet)

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### Instruction: How large is the runway of the Richton-Perry County Airport? ### Context: Richton-Perry County Airport covers an area of 55 acres (22 ha) at an elevation of 167 feet (51 m) above mean sea level. It has one runway designated 18/36 with an asphalt surface measuring 3,000 by 60 feet (914 x 18 m). For the 12-month period ending November 17, 2011, the airport had 1,400 general aviation aircraft operations, an average of 116 per month. At that time there were two single-engine aircraft based at this airport. ### Answer: The single runway at the Richton-Perry County Airport is 18000 square feet in area (it's dimensions are 3,000 by 60 feet)

What is "Sex and the City"?

Sex and the City is an American romantic comedy-drama television series created by Darren Star for HBO. An adaptation of Candace Bushnell's newspaper column and 1996 book anthology of the same name, the series premiered in the United States on June 6, 1998, and concluded on February 22, 2004, with 94 episodes broadcast over six seasons. Throughout its development, the series received contributions from various producers, screenwriters, and directors, principally Michael Patrick King.

Sex and the City is an American romantic comedy-drama television series created by Darren Star for HBO. An adaptation of Candace Bushnell's newspaper column and 1996 book anthology of the same name, the series premiered in the United States on June 6, 1998, and concluded on February 22, 2004, with 94 episodes broadcast over six seasons. Throughout its development, the series received contributions from various producers, screenwriters, and directors, principally Michael Patrick King. Sex and the City has received both acclaim and criticism for its subjects and characters, and is credited with helping to increase HBO's popularity as a network. The series has won several accolades, including seven of its 54 Emmy Award nominations, eight of its 24 Golden Globe Award nominations, and three of its 11 Screen Actors Guild Award nominations. The series placed fifth on Entertainment Weekly's "New TV Classics" list, and has been listed as one of the best television series of all time by Time in 2007 and TV Guide in 2013. The series still airs in syndication worldwide. It spawned two feature films, Sex and the City (2008) and Sex and the City 2 (2010), and a prequel television series commissioned by The CW, The Carrie Diaries (2013–14). A sequel series titled And Just Like That... premiered on HBO Max on December 9, 2021. The series features Parker, Davis and Nixon reprising their roles, with Cattrall choosing not to return partly due to her long-standing and ongoing feud with Parker.

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### Instruction: What is "Sex and the City"? ### Context: Sex and the City is an American romantic comedy-drama television series created by Darren Star for HBO. An adaptation of Candace Bushnell's newspaper column and 1996 book anthology of the same name, the series premiered in the United States on June 6, 1998, and concluded on February 22, 2004, with 94 episodes broadcast over six seasons. Throughout its development, the series received contributions from various producers, screenwriters, and directors, principally Michael Patrick King. ### Answer: Sex and the City is an American romantic comedy-drama television series created by Darren Star for HBO. An adaptation of Candace Bushnell's newspaper column and 1996 book anthology of the same name, the series premiered in the United States on June 6, 1998, and concluded on February 22, 2004, with 94 episodes broadcast over six seasons. Throughout its development, the series received contributions from various producers, screenwriters, and directors, principally Michael Patrick King. Sex and the City has received both acclaim and criticism for its subjects and characters, and is credited with helping to increase HBO's popularity as a network. The series has won several accolades, including seven of its 54 Emmy Award nominations, eight of its 24 Golden Globe Award nominations, and three of its 11 Screen Actors Guild Award nominations. The series placed fifth on Entertainment Weekly's "New TV Classics" list, and has been listed as one of the best television series of all time by Time in 2007 and TV Guide in 2013. The series still airs in syndication worldwide. It spawned two feature films, Sex and the City (2008) and Sex and the City 2 (2010), and a prequel television series commissioned by The CW, The Carrie Diaries (2013–14). A sequel series titled And Just Like That... premiered on HBO Max on December 9, 2021. The series features Parker, Davis and Nixon reprising their roles, with Cattrall choosing not to return partly due to her long-standing and ongoing feud with Parker.

Based on the passage provided, what does Brene Brown's research focus on?

Casandra Brené Brown (born November 18, 1965) is an American professor, lecturer, author, and podcast host. Brown is known in particular for her research on shame, vulnerability, and leadership, and for her widely viewed TEDx talk in 2010. Since then she has written six number-one New York Times bestselling books, hosts two podcasts, and has filmed a lecture for Netflix as well as a series about her latest book, Atlas of the Heart on HBO Max.

Brene Brown's research focuses on shame, vulnerability, and leadership.

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### Instruction: Based on the passage provided, what does Brene Brown's research focus on? ### Context: Casandra Brené Brown (born November 18, 1965) is an American professor, lecturer, author, and podcast host. Brown is known in particular for her research on shame, vulnerability, and leadership, and for her widely viewed TEDx talk in 2010. Since then she has written six number-one New York Times bestselling books, hosts two podcasts, and has filmed a lecture for Netflix as well as a series about her latest book, Atlas of the Heart on HBO Max. ### Answer: Brene Brown's research focuses on shame, vulnerability, and leadership.

What is renal compensation?

Renal compensation is a mechanism by which the kidneys can regulate the plasma pH. It is slower than respiratory compensation, but has a greater ability to restore normal values. Kidneys maintain the acid-base balance through two mechanisms,- the secretion of H+ ions and the reabsorption of bicarbonate HCO3 from urine which is then released into the blood. The regulation of H+ ions and bicarbonate HCO3 is determined by the concentration of the two released within the urine. These mechanisms of secretion and reabsorption balance the pH of the bloodstream. A restored acid-base balanced bloodstream thus leads to a restored acid-base balance throughout the entire body.

Renal compensation is the mechanism that the kidneys use to regulate plasma pH. It is a slower process than respiratory compensation, but increases the body's ability to restore normal values.

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### Instruction: What is renal compensation? ### Context: Renal compensation is a mechanism by which the kidneys can regulate the plasma pH. It is slower than respiratory compensation, but has a greater ability to restore normal values. Kidneys maintain the acid-base balance through two mechanisms,- the secretion of H+ ions and the reabsorption of bicarbonate HCO3 from urine which is then released into the blood. The regulation of H+ ions and bicarbonate HCO3 is determined by the concentration of the two released within the urine. These mechanisms of secretion and reabsorption balance the pH of the bloodstream. A restored acid-base balanced bloodstream thus leads to a restored acid-base balance throughout the entire body. ### Answer: Renal compensation is the mechanism that the kidneys use to regulate plasma pH. It is a slower process than respiratory compensation, but increases the body's ability to restore normal values.

Extract why Jerry Rice is the greatest wide receiver of all time.

Nicknamed "World" because of his superb catching ability, his accomplishments and numerous records, Rice is widely regarded as the greatest wide receiver in NFL history and one of the greatest players of all time. His biography on the official Pro Football Hall of Fame website names him: "the most prolific wide receiver in NFL history with staggering career totals". In 1999, The Sporting News listed Rice second behind Jim Brown on its list of "Football's 100 Greatest Players". In 2010, he was chosen by NFL Network's NFL Films production The Top 100: NFL's Greatest Players as the greatest player in NFL history.

Jerry Rice holds numerous NFL receiving records. His 197 career touchdown receptions are 41 scores more than the second place of 156 touchdown receptions by Randy Moss; his 208 total touchdowns (197 receiving, ten rushing, and one fumble recovery) are 33 scores ahead of Emmitt Smith's second-place total of 175. His 22,895 career receiving yards are 5,403 yards ahead of the second-place Larry Fitzgerald. His 1,256 career points scored make him the highest-scoring non-kicker in NFL history. Many of these records are considered by sports analysts to be unbreakable. During a career spanning two decades, Rice averaged 75.6 receiving yards per game.

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### Instruction: Extract why Jerry Rice is the greatest wide receiver of all time. ### Context: Nicknamed "World" because of his superb catching ability, his accomplishments and numerous records, Rice is widely regarded as the greatest wide receiver in NFL history and one of the greatest players of all time. His biography on the official Pro Football Hall of Fame website names him: "the most prolific wide receiver in NFL history with staggering career totals". In 1999, The Sporting News listed Rice second behind Jim Brown on its list of "Football's 100 Greatest Players". In 2010, he was chosen by NFL Network's NFL Films production The Top 100: NFL's Greatest Players as the greatest player in NFL history. ### Answer: Jerry Rice holds numerous NFL receiving records. His 197 career touchdown receptions are 41 scores more than the second place of 156 touchdown receptions by Randy Moss; his 208 total touchdowns (197 receiving, ten rushing, and one fumble recovery) are 33 scores ahead of Emmitt Smith's second-place total of 175. His 22,895 career receiving yards are 5,403 yards ahead of the second-place Larry Fitzgerald. His 1,256 career points scored make him the highest-scoring non-kicker in NFL history. Many of these records are considered by sports analysts to be unbreakable. During a career spanning two decades, Rice averaged 75.6 receiving yards per game.

Extract ways to observe a black hole. Separate them with a "-" in multiple lines.

The presence of a black hole can be inferred through its interaction with other matter and with electromagnetic radiation such as visible light. Any matter that falls onto a black hole can form an external accretion disk heated by friction, forming quasars, some of the brightest objects in the universe. Stars passing too close to a supermassive black hole can be shredded into streamers that shine very brightly before being "swallowed." If other stars are orbiting a black hole, their orbits can determine the black hole's mass and location. Such observations can be used to exclude possible alternatives such as neutron stars. In this way, astronomers have identified numerous stellar black hole candidates in binary systems and established that the radio source known as Sagittarius A*, at the core of the Milky Way galaxy, contains a supermassive black hole of about 4.3 million solar masses.

A black hole can be observed via the following ways: - Accretion disk heated by friction when matter falls into black hole.

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### Instruction: Extract ways to observe a black hole. Separate them with a "-" in multiple lines. ### Context: The presence of a black hole can be inferred through its interaction with other matter and with electromagnetic radiation such as visible light. Any matter that falls onto a black hole can form an external accretion disk heated by friction, forming quasars, some of the brightest objects in the universe. Stars passing too close to a supermassive black hole can be shredded into streamers that shine very brightly before being "swallowed." If other stars are orbiting a black hole, their orbits can determine the black hole's mass and location. Such observations can be used to exclude possible alternatives such as neutron stars. In this way, astronomers have identified numerous stellar black hole candidates in binary systems and established that the radio source known as Sagittarius A*, at the core of the Milky Way galaxy, contains a supermassive black hole of about 4.3 million solar masses. ### Answer: A black hole can be observed via the following ways: - Accretion disk heated by friction when matter falls into black hole.

Change this sentence to present tense

John Watson was an early American painter, born in Scotland.

John Watson is an early American painter, born in Scotland.

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### Instruction: Change this sentence to present tense ### Context: John Watson was an early American painter, born in Scotland. ### Answer: John Watson is an early American painter, born in Scotland.

From the passage below, please locate the birthdate of William Harrison.

William Henry Harrison (February 9, 1773 – April 4, 1841) was an American military officer and politician who served as the ninth president of the United States. Harrison died just 31 days after his inauguration in 1841, and had the shortest presidency in United States history. He was also the first United States president to die in office, and a brief constitutional crisis resulted as presidential succession was not then fully defined in the United States Constitution. Harrison was the last president born as a British subject in the Thirteen Colonies and was the paternal grandfather of Benjamin Harrison, the 23rd president of the United States.

William Henry Harrison was born on February 9, 1773.

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### Instruction: From the passage below, please locate the birthdate of William Harrison. ### Context: William Henry Harrison (February 9, 1773 – April 4, 1841) was an American military officer and politician who served as the ninth president of the United States. Harrison died just 31 days after his inauguration in 1841, and had the shortest presidency in United States history. He was also the first United States president to die in office, and a brief constitutional crisis resulted as presidential succession was not then fully defined in the United States Constitution. Harrison was the last president born as a British subject in the Thirteen Colonies and was the paternal grandfather of Benjamin Harrison, the 23rd president of the United States. ### Answer: William Henry Harrison was born on February 9, 1773.

From the passage identify the sacred animals of Apollo. Display the results in a comma separated format.

Apollo (Ἀπόλλων, Apóllōn) God of music, arts, knowledge, healing, plague, prophecy, poetry, manly beauty, and archery. He is the son of Zeus and Leto, and the twin brother of Artemis. Both Apollo and Artemis use a bow and arrow. Apollo is depicted as young, beardless, handsome and athletic. In myth, he can be cruel and destructive, and his love affairs are rarely happy. He is often accompanied by the Muses. His most famous temple is in Delphi, where he established his oracular shrine. His signs and symbols include the laurel wreath, bow and arrow, and lyre. His sacred animals include roe deer, swans, and pythons. Some late Roman and Greek poetry and mythography identifies him as a sun-god, equivalent to Roman Sol and Greek Helios.

roe deer, swans, pythons

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### Instruction: From the passage identify the sacred animals of Apollo. Display the results in a comma separated format. ### Context: Apollo (Ἀπόλλων, Apóllōn) God of music, arts, knowledge, healing, plague, prophecy, poetry, manly beauty, and archery. He is the son of Zeus and Leto, and the twin brother of Artemis. Both Apollo and Artemis use a bow and arrow. Apollo is depicted as young, beardless, handsome and athletic. In myth, he can be cruel and destructive, and his love affairs are rarely happy. He is often accompanied by the Muses. His most famous temple is in Delphi, where he established his oracular shrine. His signs and symbols include the laurel wreath, bow and arrow, and lyre. His sacred animals include roe deer, swans, and pythons. Some late Roman and Greek poetry and mythography identifies him as a sun-god, equivalent to Roman Sol and Greek Helios. ### Answer: roe deer, swans, pythons

List the movies of Ranjit Mallick.

Ranjit Mallick (রঞ্জিত মল্লিক) (born 28 September 1944) is an Indian actor who works mainly in Bengali cinema. He is particularly known for appearing in films such as Interview, Mouchak, Shatru, Shakha Proshakha, Guru Dakshina, Amader Songsar, Indrajit, Jiban Niye Khela, Nabab, Sathi, Nater Guru, Gyarakal, Chander Bari and Bajimaat. He was also the Sheriff of Kolkata for the year 2014. He is one of the most anticipated actors of Bengali cinema and has been a part of more than 100 films as of now. Ranjit was born on 28 September 1944 in Calcutta, West Bengal, into the Mallick Bari of Bhowanipore (a family belonging to the Vaidya (Baidya) community, which is closely associated with Kolkata's Barat and Gupta families), known for its Durga Puja.[citation needed] His nickname is Ranju. He studied at the Asutosh College and later at the Syamaprasad College of the University of Calcutta.

Interview, Mouchak, Shatru, Shakha Proshakha, Guru Dakshina, Amader Songsar, Indrajit, Jiban Niye Khela, Nabab, Sathi, Nater Guru, Gyarakal, Chander Bari, Sheriff of Kolkata and Bajimaat.

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### Instruction: List the movies of Ranjit Mallick. ### Context: Ranjit Mallick (রঞ্জিত মল্লিক) (born 28 September 1944) is an Indian actor who works mainly in Bengali cinema. He is particularly known for appearing in films such as Interview, Mouchak, Shatru, Shakha Proshakha, Guru Dakshina, Amader Songsar, Indrajit, Jiban Niye Khela, Nabab, Sathi, Nater Guru, Gyarakal, Chander Bari and Bajimaat. He was also the Sheriff of Kolkata for the year 2014. He is one of the most anticipated actors of Bengali cinema and has been a part of more than 100 films as of now. Ranjit was born on 28 September 1944 in Calcutta, West Bengal, into the Mallick Bari of Bhowanipore (a family belonging to the Vaidya (Baidya) community, which is closely associated with Kolkata's Barat and Gupta families), known for its Durga Puja.[citation needed] His nickname is Ranju. He studied at the Asutosh College and later at the Syamaprasad College of the University of Calcutta. ### Answer: Interview, Mouchak, Shatru, Shakha Proshakha, Guru Dakshina, Amader Songsar, Indrajit, Jiban Niye Khela, Nabab, Sathi, Nater Guru, Gyarakal, Chander Bari, Sheriff of Kolkata and Bajimaat.

What is the population of Miramar?

Miramar is a corregimiento in Chiriquí Grande District, Bocas del Toro Province, Panama. It has a land area of 26.9 square kilometres (10.4 sq mi) and had a population of 1,232 as of 2010, giving it a population density of 45.8 inhabitants per square kilometre (119/sq mi).

As of 2010, the population of Miramar is 1232.

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### Instruction: What is the population of Miramar? ### Context: Miramar is a corregimiento in Chiriquí Grande District, Bocas del Toro Province, Panama. It has a land area of 26.9 square kilometres (10.4 sq mi) and had a population of 1,232 as of 2010, giving it a population density of 45.8 inhabitants per square kilometre (119/sq mi). ### Answer: As of 2010, the population of Miramar is 1232.

Who was John Moses Browning?

John Moses Browning (January 23, 1855 – November 26, 1926) was an American firearm designer who developed many varieties of military and civilian firearms, cartridges, and gun mechanisms – many of which are still in use around the world. He made his first firearm at age 13 in his father's gun shop and was awarded the first of his 128 firearm patents on October 7, 1879, at the age of 24. He is regarded as one of the most successful firearms designers of the 19th and 20th centuries and pioneered the development of modern repeating, semi-automatic, and automatic firearms. Browning influenced nearly all categories of firearms design, especially the autoloading of ammunition. He invented, or made significant improvements to, single-shot, lever-action, and pump-action rifles and shotguns. He developed the first reliable and compact autoloading pistols by inventing the telescoping bolt, then integrating the bolt and barrel shroud into what is known as the pistol slide. Browning's telescoping bolt design is now found on nearly every modern semi-automatic pistol, as well as several modern fully automatic weapons. He also developed the first gas-operated firearm, the Colt–Browning Model 1895 machine gun – a system that surpassed mechanical recoil operation to become the standard for most high-power self-loading firearm designs worldwide. He also made significant contributions to automatic cannon development. Browning's most successful designs include the M1911 pistol, the water-cooled M1917, the air-cooled M1919, and heavy M2 machine guns, the M1918 Browning Automatic Rifle, and the Browning Auto-5 – the first semi-automatic shotgun. Some of these arms are still manufactured, often with only minor changes in detail and cosmetics to those assembled by Browning or his licensees. The Browning-designed M1911 and Hi-Power are some of the most copied firearms in the world.

John Moses Browning is one of the most well-known designer of modern firearms. He started building firearms in his father's shop at the age of 13, and was awarded his first patent when he was 24. He designed the first reliable automatic pistol, and the first gas-operated firearm, as well inventing or improving single-shot, lever-action, and pump-action rifles and shotguns. Today, he is most well-known for the M1911 pistol, the Browning Automatic Rifle, and the Auto-5 shotgun, all of which are in still in current production in either their original design, or with minor changes. His M1911 and Hi-Power pistols designs are some of the most reproduced firearms in the world today.

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### Instruction: Who was John Moses Browning? ### Context: John Moses Browning (January 23, 1855 – November 26, 1926) was an American firearm designer who developed many varieties of military and civilian firearms, cartridges, and gun mechanisms – many of which are still in use around the world. He made his first firearm at age 13 in his father's gun shop and was awarded the first of his 128 firearm patents on October 7, 1879, at the age of 24. He is regarded as one of the most successful firearms designers of the 19th and 20th centuries and pioneered the development of modern repeating, semi-automatic, and automatic firearms. Browning influenced nearly all categories of firearms design, especially the autoloading of ammunition. He invented, or made significant improvements to, single-shot, lever-action, and pump-action rifles and shotguns. He developed the first reliable and compact autoloading pistols by inventing the telescoping bolt, then integrating the bolt and barrel shroud into what is known as the pistol slide. Browning's telescoping bolt design is now found on nearly every modern semi-automatic pistol, as well as several modern fully automatic weapons. He also developed the first gas-operated firearm, the Colt–Browning Model 1895 machine gun – a system that surpassed mechanical recoil operation to become the standard for most high-power self-loading firearm designs worldwide. He also made significant contributions to automatic cannon development. Browning's most successful designs include the M1911 pistol, the water-cooled M1917, the air-cooled M1919, and heavy M2 machine guns, the M1918 Browning Automatic Rifle, and the Browning Auto-5 – the first semi-automatic shotgun. Some of these arms are still manufactured, often with only minor changes in detail and cosmetics to those assembled by Browning or his licensees. The Browning-designed M1911 and Hi-Power are some of the most copied firearms in the world. ### Answer: John Moses Browning is one of the most well-known designer of modern firearms. He started building firearms in his father's shop at the age of 13, and was awarded his first patent when he was 24. He designed the first reliable automatic pistol, and the first gas-operated firearm, as well inventing or improving single-shot, lever-action, and pump-action rifles and shotguns. Today, he is most well-known for the M1911 pistol, the Browning Automatic Rifle, and the Auto-5 shotgun, all of which are in still in current production in either their original design, or with minor changes. His M1911 and Hi-Power pistols designs are some of the most reproduced firearms in the world today.

Based on the passage provided, what are the only two elements in the periodic table that were names after a person who was alive at the time of naming?

Oganesson is a synthetic chemical element with the symbol Og and atomic number 118. It was first synthesized in 2002 at the Joint Institute for Nuclear Research (JINR) in Dubna, near Moscow, Russia, by a joint team of Russian and American scientists. In December 2015, it was recognized as one of four new elements by the Joint Working Party of the international scientific bodies IUPAC and IUPAP. It was formally named on 28 November 2016. The name honors the nuclear physicist Yuri Oganessian, who played a leading role in the discovery of the heaviest elements in the periodic table. It is one of only two elements named after a person who was alive at the time of naming, the other being seaborgium, and the only element whose eponym is alive as of 2023.

Organesson and Seaborgium are the only two elements in the periodic table that were names after a person who was alive at the time of naming.

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### Instruction: Based on the passage provided, what are the only two elements in the periodic table that were names after a person who was alive at the time of naming? ### Context: Oganesson is a synthetic chemical element with the symbol Og and atomic number 118. It was first synthesized in 2002 at the Joint Institute for Nuclear Research (JINR) in Dubna, near Moscow, Russia, by a joint team of Russian and American scientists. In December 2015, it was recognized as one of four new elements by the Joint Working Party of the international scientific bodies IUPAC and IUPAP. It was formally named on 28 November 2016. The name honors the nuclear physicist Yuri Oganessian, who played a leading role in the discovery of the heaviest elements in the periodic table. It is one of only two elements named after a person who was alive at the time of naming, the other being seaborgium, and the only element whose eponym is alive as of 2023. ### Answer: Organesson and Seaborgium are the only two elements in the periodic table that were names after a person who was alive at the time of naming.

From the passage provided, how old was Betty White when she died?

Betty Marion White (January 17, 1922 – December 31, 2021) was an American actress and comedian. A pioneer of early television with a career spanning almost seven decades, she was noted for her vast body of work in entertainment and for being one of the first women to work both in front of and behind the camera. She produced and starred in the sitcom Life with Elizabeth (1953–1955), making her the first woman to produce a sitcom.

Betty White was 99 years old when she died on December 31, 2021.

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### Instruction: From the passage provided, how old was Betty White when she died? ### Context: Betty Marion White (January 17, 1922 – December 31, 2021) was an American actress and comedian. A pioneer of early television with a career spanning almost seven decades, she was noted for her vast body of work in entertainment and for being one of the first women to work both in front of and behind the camera. She produced and starred in the sitcom Life with Elizabeth (1953–1955), making her the first woman to produce a sitcom. ### Answer: Betty White was 99 years old when she died on December 31, 2021.

What movie received the most nominations for the 70th Academy Awards?

The nominees for the 70th Academy Awards were announced on February 10, 1998, at the Samuel Goldwyn Theater in Beverly Hills, California, by Robert Rehme, president of the academy, and actress Geena Davis. Titanic received the most nominations with a record-tying fourteen (1950's All About Eve, and later 2016's La La Land, also achieved this distinction); Good Will Hunting and L.A. Confidential came in second with nine apiece.

Titanic received the most nominations at fourteen nominations at the 70th Academy Awards

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### Instruction: What movie received the most nominations for the 70th Academy Awards? ### Context: The nominees for the 70th Academy Awards were announced on February 10, 1998, at the Samuel Goldwyn Theater in Beverly Hills, California, by Robert Rehme, president of the academy, and actress Geena Davis. Titanic received the most nominations with a record-tying fourteen (1950's All About Eve, and later 2016's La La Land, also achieved this distinction); Good Will Hunting and L.A. Confidential came in second with nine apiece. ### Answer: Titanic received the most nominations at fourteen nominations at the 70th Academy Awards

Who is Antonio Jose de Sucre?

Antonio José de Sucre y Alcalá (Spanish pronunciation: [anˈtonjo xoˈse ðe ˈsukɾe j alkaˈla] (listen); 3 February 1795 – 4 June 1830), known as the "Gran Mariscal de Ayacucho" (English: "Grand Marshal of Ayacucho"), was a Venezuelan independence leader who served as the president of Peru and as the second president of Bolivia. Sucre was one of Simón Bolívar's closest friends, generals and statesmen.

Antonio José de Sucre y Alcalá (Spanish pronunciation: [anˈtonjo xoˈse ðe ˈsukɾe j alkaˈla] (listen); 3 February 1795 – 4 June 1830), known as the "Gran Mariscal de Ayacucho" (English: "Grand Marshal of Ayacucho"), was a Venezuelan independence leader who served as the president of Peru and as the second president of Bolivia. Sucre was one of Simón Bolívar's closest friends, generals and statesmen. Due to his influence on geopolitical affairs of Latin America, a number of notable localities on the continent now bear Sucre's name. These include the eponymous capital of Bolivia, the Venezuelan state, the department of Colombia and both the old and new airports of Ecuador's capital Quito. Additionally, many schools, streets and districts across the region bear his name as well.

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### Instruction: Who is Antonio Jose de Sucre? ### Context: Antonio José de Sucre y Alcalá (Spanish pronunciation: [anˈtonjo xoˈse ðe ˈsukɾe j alkaˈla] (listen); 3 February 1795 – 4 June 1830), known as the "Gran Mariscal de Ayacucho" (English: "Grand Marshal of Ayacucho"), was a Venezuelan independence leader who served as the president of Peru and as the second president of Bolivia. Sucre was one of Simón Bolívar's closest friends, generals and statesmen. ### Answer: Antonio José de Sucre y Alcalá (Spanish pronunciation: [anˈtonjo xoˈse ðe ˈsukɾe j alkaˈla] (listen); 3 February 1795 – 4 June 1830), known as the "Gran Mariscal de Ayacucho" (English: "Grand Marshal of Ayacucho"), was a Venezuelan independence leader who served as the president of Peru and as the second president of Bolivia. Sucre was one of Simón Bolívar's closest friends, generals and statesmen. Due to his influence on geopolitical affairs of Latin America, a number of notable localities on the continent now bear Sucre's name. These include the eponymous capital of Bolivia, the Venezuelan state, the department of Colombia and both the old and new airports of Ecuador's capital Quito. Additionally, many schools, streets and districts across the region bear his name as well.

Is Python a popular programming language?

Python is a high-level, general-purpose programming language. Its design philosophy emphasizes code readability with the use of significant indentation via the off-side rule. Python is dynamically typed and garbage-collected. It supports multiple programming paradigms, including structured (particularly procedural), object-oriented and functional programming. It is often described as a "batteries included" language due to its comprehensive standard library. Guido van Rossum began working on Python in the late 1980s as a successor to the ABC programming language and first released it in 1991 as Python 0.9.0. Python 2.0 was released in 2000. Python 3.0, released in 2008, was a major revision not completely backward-compatible with earlier versions. Python 2.7.18, released in 2020, was the last release of Python 2. Python consistently ranks as one of the most popular programming languages.

Yes Python is a very popular general high level programming language. It is growing rapidly and is widely used in the data science community

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### Instruction: Is Python a popular programming language? ### Context: Python is a high-level, general-purpose programming language. Its design philosophy emphasizes code readability with the use of significant indentation via the off-side rule. Python is dynamically typed and garbage-collected. It supports multiple programming paradigms, including structured (particularly procedural), object-oriented and functional programming. It is often described as a "batteries included" language due to its comprehensive standard library. Guido van Rossum began working on Python in the late 1980s as a successor to the ABC programming language and first released it in 1991 as Python 0.9.0. Python 2.0 was released in 2000. Python 3.0, released in 2008, was a major revision not completely backward-compatible with earlier versions. Python 2.7.18, released in 2020, was the last release of Python 2. Python consistently ranks as one of the most popular programming languages. ### Answer: Yes Python is a very popular general high level programming language. It is growing rapidly and is widely used in the data science community

Extract the different types of milk distribution containers mentioned in the text and list them using bullets in the format {container type} - {volume}

In Australia and New Zealand, prior to metrication, milk was generally distributed in 1 pint (568 mL) glass bottles. In Australia and Ireland there was a government funded "free milk for school children" program, and milk was distributed at morning recess in 1/3 pint bottles. With the conversion to metric measures, the milk industry was concerned that the replacement of the pint bottles with 500 mL bottles would result in a 13.6% drop in milk consumption; hence, all pint bottles were recalled and replaced by 600 mL bottles. With time, due to the steadily increasing cost of collecting, transporting, storing and cleaning glass bottles, they were replaced by cardboard cartons. A number of designs were used, including a tetrahedron which could be close-packed without waste space, and could not be knocked over accidentally (slogan: "No more crying over spilt milk"). However, the industry eventually settled on a design similar to that used in the United States. Milk is now available in a variety of sizes in paperboard milk cartons (250 mL, 375 mL, 600 mL, 1 liter and 1.5 liters) and plastic bottles (1, 2 and 3 liters). A significant addition to the marketplace has been "long-life" milk (UHT), generally available in 1 and 2 liter rectangular cardboard cartons. In urban and suburban areas where there is sufficient demand, home delivery is still available, though in suburban areas this is often 3 times per week rather than daily. Another significant and popular addition to the marketplace has been flavored milks; for example, as mentioned above, Farmers Union Iced Coffee outsells Coca-Cola in South Australia.

- glass - 1 pint (569 mL) - glass - 1/3 pint - glass - 600 mL - paperboard - 250 mL - paperboard - 375 mL - paperboard - 600 mL - paperboard - 1 L - paperboard - 1.5 L - plastic - 1 L - plastic - 2 L - plastic - 3 L - cardboard - 1 L - cardboard - 2 L

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### Instruction: Extract the different types of milk distribution containers mentioned in the text and list them using bullets in the format {container type} - {volume} ### Context: In Australia and New Zealand, prior to metrication, milk was generally distributed in 1 pint (568 mL) glass bottles. In Australia and Ireland there was a government funded "free milk for school children" program, and milk was distributed at morning recess in 1/3 pint bottles. With the conversion to metric measures, the milk industry was concerned that the replacement of the pint bottles with 500 mL bottles would result in a 13.6% drop in milk consumption; hence, all pint bottles were recalled and replaced by 600 mL bottles. With time, due to the steadily increasing cost of collecting, transporting, storing and cleaning glass bottles, they were replaced by cardboard cartons. A number of designs were used, including a tetrahedron which could be close-packed without waste space, and could not be knocked over accidentally (slogan: "No more crying over spilt milk"). However, the industry eventually settled on a design similar to that used in the United States. Milk is now available in a variety of sizes in paperboard milk cartons (250 mL, 375 mL, 600 mL, 1 liter and 1.5 liters) and plastic bottles (1, 2 and 3 liters). A significant addition to the marketplace has been "long-life" milk (UHT), generally available in 1 and 2 liter rectangular cardboard cartons. In urban and suburban areas where there is sufficient demand, home delivery is still available, though in suburban areas this is often 3 times per week rather than daily. Another significant and popular addition to the marketplace has been flavored milks; for example, as mentioned above, Farmers Union Iced Coffee outsells Coca-Cola in South Australia. ### Answer: - glass - 1 pint (569 mL) - glass - 1/3 pint - glass - 600 mL - paperboard - 250 mL - paperboard - 375 mL - paperboard - 600 mL - paperboard - 1 L - paperboard - 1.5 L - plastic - 1 L - plastic - 2 L - plastic - 3 L - cardboard - 1 L - cardboard - 2 L

In what way did Étienne Halphen interests lead to him discovering the harmonic distribution?

In probability theory and statistics, the harmonic distribution is a continuous probability distribution. It was discovered by Étienne Halphen, who had become interested in the statistical modeling of natural events. His practical experience in data analysis motivated him to pioneer a new system of distributions that provided sufficient flexibility to fit a large variety of data sets. Halphen restricted his search to distributions whose parameters could be estimated using simple statistical approaches.

He had become interested in the statistical modeling of natural events. This motivated him to find a system that provided sufficient flexibility to fit a large variety of data sets.

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### Instruction: In what way did Étienne Halphen interests lead to him discovering the harmonic distribution? ### Context: In probability theory and statistics, the harmonic distribution is a continuous probability distribution. It was discovered by Étienne Halphen, who had become interested in the statistical modeling of natural events. His practical experience in data analysis motivated him to pioneer a new system of distributions that provided sufficient flexibility to fit a large variety of data sets. Halphen restricted his search to distributions whose parameters could be estimated using simple statistical approaches. ### Answer: He had become interested in the statistical modeling of natural events. This motivated him to find a system that provided sufficient flexibility to fit a large variety of data sets.

Extract the the materials used to build beaver dams from the following passage and separate them with a comma.

Beavers need trees and shrubs to use as building material for dams, which restrict flowing water to create a pond for them to live in, and for lodges, which act as shelters and refuges from predators and the elements. Without such material, beavers dig burrows into a bank to live. Dam construction begins in late summer or early fall, and they repair them whenever needed. Beavers can cut down trees up to 15 cm (5.9 in) wide in less than 50 minutes. Thicker trees, at 25 cm (9.8 in) wide or more, may not fall for hours. When chewing down a tree, beavers switch between biting with the left and right side of the mouth. Tree branches are then cut and carried to their destination with the powerful jaw and neck muscles. Other building materials, like mud and rocks, are held by the forelimbs and tucked between the chin and chest.

Beavers use the following materials to build their dams: trees, shrubs, mud, rocks.

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### Instruction: Extract the the materials used to build beaver dams from the following passage and separate them with a comma. ### Context: Beavers need trees and shrubs to use as building material for dams, which restrict flowing water to create a pond for them to live in, and for lodges, which act as shelters and refuges from predators and the elements. Without such material, beavers dig burrows into a bank to live. Dam construction begins in late summer or early fall, and they repair them whenever needed. Beavers can cut down trees up to 15 cm (5.9 in) wide in less than 50 minutes. Thicker trees, at 25 cm (9.8 in) wide or more, may not fall for hours. When chewing down a tree, beavers switch between biting with the left and right side of the mouth. Tree branches are then cut and carried to their destination with the powerful jaw and neck muscles. Other building materials, like mud and rocks, are held by the forelimbs and tucked between the chin and chest. ### Answer: Beavers use the following materials to build their dams: trees, shrubs, mud, rocks.

Based on the following passage when do schools close and resume after summer holidays in the United States?

Schools and universities typically have a summer break to take advantage of the warmer weather and longer days. In almost all countries, children are out of school during this time of year for summer break, although dates vary. Many families will take holidays for a week or two over summer, particularly in Southern Hemisphere Western countries with statutory Christmas and New Year holidays. In the United States, public schools usually end in late May in Memorial Day weekend, while colleges finish in early May. Public school traditionally resumes near Labor Day, while higher institutions often resume in mid-August. In England and Wales, school ends in mid-July and resumes again in early September. In Scotland, the summer holiday begins in late June and ends in mid-to late-August. Similarly, in Canada the summer holiday starts on the last or second-last Friday in June and ends in late August or on the first Tuesday of September, with the exception of when that date falls before Labour Day, in which case, ends on the second Tuesday of the month. In Russia the summer holiday begins at the end of May and ends on 31 August. In the Southern Hemisphere, school summer holiday dates include the major holidays of Christmas and New Year's Day. School summer holidays in Australia, New Zealand and South Africa begin in early December and end in early February, with dates varying between states. In South Africa, the new school year usually starts during the second week of January, thus aligning the academic year with the Calendar year. In India, school ends in late April and resumes in early or mid-June. In Cameroon and Nigeria, schools usually finish for summer vacation in mid-July and resume in the later weeks of September or the first week of October.

In the United States, public schools usually end in late May in Memorial Day weekend, while colleges finish in early May. Public school traditionally resumes near Labor Day, while higher institutions often resume in mid-August.

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### Instruction: Based on the following passage when do schools close and resume after summer holidays in the United States? ### Context: Schools and universities typically have a summer break to take advantage of the warmer weather and longer days. In almost all countries, children are out of school during this time of year for summer break, although dates vary. Many families will take holidays for a week or two over summer, particularly in Southern Hemisphere Western countries with statutory Christmas and New Year holidays. In the United States, public schools usually end in late May in Memorial Day weekend, while colleges finish in early May. Public school traditionally resumes near Labor Day, while higher institutions often resume in mid-August. In England and Wales, school ends in mid-July and resumes again in early September. In Scotland, the summer holiday begins in late June and ends in mid-to late-August. Similarly, in Canada the summer holiday starts on the last or second-last Friday in June and ends in late August or on the first Tuesday of September, with the exception of when that date falls before Labour Day, in which case, ends on the second Tuesday of the month. In Russia the summer holiday begins at the end of May and ends on 31 August. In the Southern Hemisphere, school summer holiday dates include the major holidays of Christmas and New Year's Day. School summer holidays in Australia, New Zealand and South Africa begin in early December and end in early February, with dates varying between states. In South Africa, the new school year usually starts during the second week of January, thus aligning the academic year with the Calendar year. In India, school ends in late April and resumes in early or mid-June. In Cameroon and Nigeria, schools usually finish for summer vacation in mid-July and resume in the later weeks of September or the first week of October. ### Answer: In the United States, public schools usually end in late May in Memorial Day weekend, while colleges finish in early May. Public school traditionally resumes near Labor Day, while higher institutions often resume in mid-August.

Hepatitis B and C can cause what type of cancer?

Higher rates of liver cancer occur where hepatitis B and C are common, including Asia and sub-Saharan Africa. Males are more often affected with hepatocellular carcinoma (HCC) than females. Diagnosis is most frequent among those 55 to 65 years old.

Liver cancer (also known as hepatic cancer, primary hepatic cancer, or primary hepatic malignancy) is cancer that starts in the liver. Liver cancer can be primary (starts in liver) or secondary (meaning cancer which has spread from elsewhere to the liver, known as liver metastasis). Liver metastasis is more common than that which starts in the liver. Liver cancer is increasing globally. Primary liver cancer is globally the sixth-most frequent cancer and the fourth-leading cause of death from cancer. In 2018, it occurred in 841,000 people and resulted in 782,000 deaths globally. Higher rates of liver cancer occur where hepatitis B and C are common, including Asia and sub-Saharan Africa. Males are more often affected with hepatocellular carcinoma (HCC) than females. Diagnosis is most frequent among those 55 to 65 years old. The leading cause of liver cancer is cirrhosis due to hepatitis B, hepatitis C or alcohol. Other causes include aflatoxin, non-alcoholic fatty liver disease and liver flukes. The most common types are HCC, which makes up 80% of cases and intrahepatic cholangiocarcinoma. The diagnosis may be supported by blood tests and medical imaging, with confirmation by tissue biopsy. Given that there are many different causes of liver cancer, there are many approaches to liver cancer prevention. These efforts include immunization against hepatitis B, hepatitis B treatment, hepatitis C treatment, decreasing alcohol use, decreasing exposure to aflatoxin in agriculture, and management of obesity and diabetes. Screening is recommended in those with chronic liver disease. For example, it is recommended that people with chronic liver disease who are at risk for hepatocellular carcinoma be screened every 6 months using ultrasound imaging. Because liver cancer is an umbrella term for many types of cancer, the signs and symptoms depend on what type of cancer is present. Symptoms can be vague and broad. Cholangiocarcinoma is associated with sweating, jaundice, abdominal pain, weight loss and liver enlargement. Hepatocellular carcinoma is associated with abdominal mass, abdominal pain, emesis, anemia, back pain, jaundice, itching, weight loss and fever. Treatment options may include surgery, targeted therapy and radiation therapy. In certain cases, ablation therapy, embolization therapy or liver transplantation may be used.

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### Instruction: Hepatitis B and C can cause what type of cancer? ### Context: Higher rates of liver cancer occur where hepatitis B and C are common, including Asia and sub-Saharan Africa. Males are more often affected with hepatocellular carcinoma (HCC) than females. Diagnosis is most frequent among those 55 to 65 years old. ### Answer: Liver cancer (also known as hepatic cancer, primary hepatic cancer, or primary hepatic malignancy) is cancer that starts in the liver. Liver cancer can be primary (starts in liver) or secondary (meaning cancer which has spread from elsewhere to the liver, known as liver metastasis). Liver metastasis is more common than that which starts in the liver. Liver cancer is increasing globally. Primary liver cancer is globally the sixth-most frequent cancer and the fourth-leading cause of death from cancer. In 2018, it occurred in 841,000 people and resulted in 782,000 deaths globally. Higher rates of liver cancer occur where hepatitis B and C are common, including Asia and sub-Saharan Africa. Males are more often affected with hepatocellular carcinoma (HCC) than females. Diagnosis is most frequent among those 55 to 65 years old. The leading cause of liver cancer is cirrhosis due to hepatitis B, hepatitis C or alcohol. Other causes include aflatoxin, non-alcoholic fatty liver disease and liver flukes. The most common types are HCC, which makes up 80% of cases and intrahepatic cholangiocarcinoma. The diagnosis may be supported by blood tests and medical imaging, with confirmation by tissue biopsy. Given that there are many different causes of liver cancer, there are many approaches to liver cancer prevention. These efforts include immunization against hepatitis B, hepatitis B treatment, hepatitis C treatment, decreasing alcohol use, decreasing exposure to aflatoxin in agriculture, and management of obesity and diabetes. Screening is recommended in those with chronic liver disease. For example, it is recommended that people with chronic liver disease who are at risk for hepatocellular carcinoma be screened every 6 months using ultrasound imaging. Because liver cancer is an umbrella term for many types of cancer, the signs and symptoms depend on what type of cancer is present. Symptoms can be vague and broad. Cholangiocarcinoma is associated with sweating, jaundice, abdominal pain, weight loss and liver enlargement. Hepatocellular carcinoma is associated with abdominal mass, abdominal pain, emesis, anemia, back pain, jaundice, itching, weight loss and fever. Treatment options may include surgery, targeted therapy and radiation therapy. In certain cases, ablation therapy, embolization therapy or liver transplantation may be used.

What are the tennis ball made of?

Tennis balls were originally made of cloth strips stitched together with thread and stuffed with feathers. Modern tennis balls are made of hollow vulcanized rubber with a felt coating. Traditionally white, the predominant colour was gradually changed to optic yellow in the latter part of the 20th century to allow for improved visibility. Tennis balls must conform to certain criteria for size, weight, deformation, and bounce to be approved for regulation play. The International Tennis Federation (ITF) defines the official diameter as 65.41–68.58 mm (2.575–2.700 in). Balls must weigh between 56.0 and 59.4 g (1.98 and 2.10 oz).

Nowadays most tennis balls are made of hollow vulcanized rubber with a felt coating.

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### Instruction: What are the tennis ball made of? ### Context: Tennis balls were originally made of cloth strips stitched together with thread and stuffed with feathers. Modern tennis balls are made of hollow vulcanized rubber with a felt coating. Traditionally white, the predominant colour was gradually changed to optic yellow in the latter part of the 20th century to allow for improved visibility. Tennis balls must conform to certain criteria for size, weight, deformation, and bounce to be approved for regulation play. The International Tennis Federation (ITF) defines the official diameter as 65.41–68.58 mm (2.575–2.700 in). Balls must weigh between 56.0 and 59.4 g (1.98 and 2.10 oz). ### Answer: Nowadays most tennis balls are made of hollow vulcanized rubber with a felt coating.

Extract the total number of employees in 2021 at Westpac Bank in Australia?

Type Public Traded as ASX: WBC NZX: WBC S&P/ASX 200 component Industry Banking Financial services Predecessor Bank of New South Wales Commercial Bank of Australia Founded 8 April 1817 (as the Bank of New South Wales) 4 May 1982 (as Westpac Banking Corporation) Headquarters Westpac Place Sydney, New South Wales, Australia Area served Worldwide Key people John McFarlane (Chairman) Peter King (CEO) Products Finance and insurance, consumer banking, corporate banking, investment banking, investment management, global wealth management, private equity, mortgages, credit cards Operating income Increase A$21.22 billion (2021) Net income Increase A$5.46 billion (2021) Total assets Increase A$935.88 billion (2021) Total equity Increase A$72.09 billion (2021) Number of employees 40,143 (2021) Subsidiaries St George Bank BankSA Bank of Melbourne Westpac New Zealand Website westpac.com.au westpac.co.nz

40,143 people

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### Instruction: Extract the total number of employees in 2021 at Westpac Bank in Australia? ### Context: Type Public Traded as ASX: WBC NZX: WBC S&P/ASX 200 component Industry Banking Financial services Predecessor Bank of New South Wales Commercial Bank of Australia Founded 8 April 1817 (as the Bank of New South Wales) 4 May 1982 (as Westpac Banking Corporation) Headquarters Westpac Place Sydney, New South Wales, Australia Area served Worldwide Key people John McFarlane (Chairman) Peter King (CEO) Products Finance and insurance, consumer banking, corporate banking, investment banking, investment management, global wealth management, private equity, mortgages, credit cards Operating income Increase A$21.22 billion (2021) Net income Increase A$5.46 billion (2021) Total assets Increase A$935.88 billion (2021) Total equity Increase A$72.09 billion (2021) Number of employees 40,143 (2021) Subsidiaries St George Bank BankSA Bank of Melbourne Westpac New Zealand Website westpac.com.au westpac.co.nz ### Answer: 40,143 people

What did Wei advocate for?

From an early age, Wei espoused the New Text school of Confucianism and became a vocal member of the statecraft school, which advocated practical learning in opposition to the allegedly barren evidentiary scholarship as represented by scholars like Dai Zhen. Among other things, Wei advocated sea transport of grain to the capital instead of using the Grand Canal and he also advocated a strengthening of the Qing Empire's frontier defense. In order to alleviate the demographic crisis in China, Wei also spoke in favor of large scale emigration of Han Chinese into Xinjiang.

Wei advocated for the following: - practical learning in opposition to allegedly barren evidentiary scholarship as represented by scholars like Dai Zhen - sea transport of grain to the capital instead of using the Grand Canal - a strengthening of the Qing Empire's frontier defense - large scale emigration of Han Chinese into Xinjiang

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### Instruction: What did Wei advocate for? ### Context: From an early age, Wei espoused the New Text school of Confucianism and became a vocal member of the statecraft school, which advocated practical learning in opposition to the allegedly barren evidentiary scholarship as represented by scholars like Dai Zhen. Among other things, Wei advocated sea transport of grain to the capital instead of using the Grand Canal and he also advocated a strengthening of the Qing Empire's frontier defense. In order to alleviate the demographic crisis in China, Wei also spoke in favor of large scale emigration of Han Chinese into Xinjiang. ### Answer: Wei advocated for the following: - practical learning in opposition to allegedly barren evidentiary scholarship as represented by scholars like Dai Zhen - sea transport of grain to the capital instead of using the Grand Canal - a strengthening of the Qing Empire's frontier defense - large scale emigration of Han Chinese into Xinjiang

From the passage identify the years in which major events happened in Icahn’s business career. Display the results in comma separated format.

In 1961, Icahn began his career as a stockbroker for Dreyfus Corporation. In 1963, he became an options manager for Tessel, Patrick & Co. and then he moved to Gruntal & Co. In 1968, with $150,000 of his own money and a $400,000 investment from his uncle, M. Elliot Schnall, Icahn bought a seat on the New York Stock Exchange and formed Icahn & Co., which focused on risk arbitrage and options trading. In 1978, in his first takeover attempt, he took a controlling stake in Tappan and forced the sale of the company to Electrolux, making a profit of $2.7 million, or doubling his investment. In 1979, he acquired Bayswater Realty & Capital Corporation. In 1983, he acquired ACF Industries and in 1985 he sold those shares to Phillips Petroleum, making a $50 million profit.[failed verification] In 1985, by pooling his funds with investor funds and funds borrowed from banks, Icahn acquired 50% of Trans World Airlines, and he completely acquired the company in a leveraged buyout in 1988. Icahn systematically sold TWA's assets to repay money he owed, which was described as "asset stripping" and made him known as a "corporate raider". In 1991, he sold TWA's London routes to American Airlines for $445 million. Icahn made a $469 million profit, and left TWA with $540 million in debt. He formed lowestfare.com to sell TWA tickets and acquired portions of Global Leisure Travel from Ramy El-Batrawi. In October 1986, Icahn launched an unsuccessful $8 billion hostile takeover for 89% of U.S. Steel; the bid was dropped in January 1987. In 1991, he sold his stake in the company for $1 billion, making a $200 million profit.

1961, 1963,1968, 1978, 1983, 1985, 1986, 1988, 1987, 1991

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### Instruction: From the passage identify the years in which major events happened in Icahn’s business career. Display the results in comma separated format. ### Context: In 1961, Icahn began his career as a stockbroker for Dreyfus Corporation. In 1963, he became an options manager for Tessel, Patrick & Co. and then he moved to Gruntal & Co. In 1968, with $150,000 of his own money and a $400,000 investment from his uncle, M. Elliot Schnall, Icahn bought a seat on the New York Stock Exchange and formed Icahn & Co., which focused on risk arbitrage and options trading. In 1978, in his first takeover attempt, he took a controlling stake in Tappan and forced the sale of the company to Electrolux, making a profit of $2.7 million, or doubling his investment. In 1979, he acquired Bayswater Realty & Capital Corporation. In 1983, he acquired ACF Industries and in 1985 he sold those shares to Phillips Petroleum, making a $50 million profit.[failed verification] In 1985, by pooling his funds with investor funds and funds borrowed from banks, Icahn acquired 50% of Trans World Airlines, and he completely acquired the company in a leveraged buyout in 1988. Icahn systematically sold TWA's assets to repay money he owed, which was described as "asset stripping" and made him known as a "corporate raider". In 1991, he sold TWA's London routes to American Airlines for $445 million. Icahn made a $469 million profit, and left TWA with $540 million in debt. He formed lowestfare.com to sell TWA tickets and acquired portions of Global Leisure Travel from Ramy El-Batrawi. In October 1986, Icahn launched an unsuccessful $8 billion hostile takeover for 89% of U.S. Steel; the bid was dropped in January 1987. In 1991, he sold his stake in the company for $1 billion, making a $200 million profit. ### Answer: 1961, 1963,1968, 1978, 1983, 1985, 1986, 1988, 1987, 1991

Extract the locations where Nachum lived from the text below and list them in alphabetical order and separated by a semicolon.

Nachum Gutman was born in Teleneşti, Bessarabia Governorate, then a part of the Russian Empire (now in the Republic of Moldova). He was the fourth child of Simha Alter and Rivka Gutman. His father was a Hebrew writer and educator who wrote under the pen name S. Ben Zion. In 1903, the family moved to Odessa, and two years later, to Ottoman Palestine. In 1908, Gutman attended the Herzliya Gymnasium in what would later become Tel Aviv. In 1912, he studied at the Bezalel School in Jerusalem. In 1920–26, he studied art in Vienna, Berlin and Paris. Gutman was married to Dora, with whom he had a son. After Gutman's death in 1980, Dora asked two Tel Aviv gallery owners, Meir Stern of Stern Gallery and Miriam Tawin of Shulamit Gallery, to appraise the value all of the works left in his estate.

Berlin;Jerusalem;Odessa;Palestine;Paris;Tel Aviv;Vienna

information_extraction

### Instruction: Extract the locations where Nachum lived from the text below and list them in alphabetical order and separated by a semicolon. ### Context: Nachum Gutman was born in Teleneşti, Bessarabia Governorate, then a part of the Russian Empire (now in the Republic of Moldova). He was the fourth child of Simha Alter and Rivka Gutman. His father was a Hebrew writer and educator who wrote under the pen name S. Ben Zion. In 1903, the family moved to Odessa, and two years later, to Ottoman Palestine. In 1908, Gutman attended the Herzliya Gymnasium in what would later become Tel Aviv. In 1912, he studied at the Bezalel School in Jerusalem. In 1920–26, he studied art in Vienna, Berlin and Paris. Gutman was married to Dora, with whom he had a son. After Gutman's death in 1980, Dora asked two Tel Aviv gallery owners, Meir Stern of Stern Gallery and Miriam Tawin of Shulamit Gallery, to appraise the value all of the works left in his estate. ### Answer: Berlin;Jerusalem;Odessa;Palestine;Paris;Tel Aviv;Vienna

What is Nevada City known for?

European-Americans first settled Nevada City in 1849, during the California Gold Rush, as Nevada (Spanish for "snow-covered", a reference to the snow-topped mountains in the area). The Gold Tunnel on the north side of Deer Creek was the city's first mine, built in 1850. The first sawmill in Nevada City was built on Deer Creek, just above town, in August 1850, by Lewis & Son, with a water wheel. In 1850–51, Nevada City was the state's most important mining town, and Nevada County the state's leading gold-mining county. In 1851, The Nevada Journal became the first newspaper published in the town and county. The first cemetery in town, the Pioneer Cemetery, was founded around 1851 behind the Nevada City United Methodist Church, Nevada County's first denominational church. The town of Nevada was incorporated on April 19, 1856. In 1864, the word “City” was added to its name to relieve confusion with the nearby state of Nevada, and the town has legally been known as Nevada City ever since. The former town of Coyoteville later became Nevada City's northwestern section.

Nevada City is a town in Northern California that was famous during the California Gold Rush that was first settled in 1849.

information_extraction

### Instruction: What is Nevada City known for? ### Context: European-Americans first settled Nevada City in 1849, during the California Gold Rush, as Nevada (Spanish for "snow-covered", a reference to the snow-topped mountains in the area). The Gold Tunnel on the north side of Deer Creek was the city's first mine, built in 1850. The first sawmill in Nevada City was built on Deer Creek, just above town, in August 1850, by Lewis & Son, with a water wheel. In 1850–51, Nevada City was the state's most important mining town, and Nevada County the state's leading gold-mining county. In 1851, The Nevada Journal became the first newspaper published in the town and county. The first cemetery in town, the Pioneer Cemetery, was founded around 1851 behind the Nevada City United Methodist Church, Nevada County's first denominational church. The town of Nevada was incorporated on April 19, 1856. In 1864, the word “City” was added to its name to relieve confusion with the nearby state of Nevada, and the town has legally been known as Nevada City ever since. The former town of Coyoteville later became Nevada City's northwestern section. ### Answer: Nevada City is a town in Northern California that was famous during the California Gold Rush that was first settled in 1849.

Extract all of the names of people mentioned in this paragraph and list them using bullets in the format {Name}

Toledo (Latin: Toletum) is mentioned by the Roman historian Livy (ca. 59 BCE – 17 CE) as urbs parva, sed loco munita ("a small city, but fortified by location"). Roman general Marcus Fulvius Nobilior fought a battle near the city in 193 BCE against a confederation of Celtic tribes; defeating them and capturing a king called Hilermus. At that time, Toletum was a city of the Carpetani tribe, and part of the region of Carpetania. It was incorporated into the Roman Empire as a civitas stipendiaria, (a tributary city of non-citizens) and later a municipium. With this status, city officials obtained Roman citizenship for public service, and the forms of Roman law and politics were increasingly adopted. At approximately this time, a Roman circus, city walls, public baths, and a municipal water supply and storage system were constructed in Toletum.

• Livy • Marcus Fulvius Nobilior • Hilermus

information_extraction

### Instruction: Extract all of the names of people mentioned in this paragraph and list them using bullets in the format {Name} ### Context: Toledo (Latin: Toletum) is mentioned by the Roman historian Livy (ca. 59 BCE – 17 CE) as urbs parva, sed loco munita ("a small city, but fortified by location"). Roman general Marcus Fulvius Nobilior fought a battle near the city in 193 BCE against a confederation of Celtic tribes; defeating them and capturing a king called Hilermus. At that time, Toletum was a city of the Carpetani tribe, and part of the region of Carpetania. It was incorporated into the Roman Empire as a civitas stipendiaria, (a tributary city of non-citizens) and later a municipium. With this status, city officials obtained Roman citizenship for public service, and the forms of Roman law and politics were increasingly adopted. At approximately this time, a Roman circus, city walls, public baths, and a municipal water supply and storage system were constructed in Toletum. ### Answer: • Livy • Marcus Fulvius Nobilior • Hilermus

What is the oldest hiking trail in the US?

An early example of an interest in hiking in the United States is Abel Crawford and his son Ethan's clearing of a trail to the summit of Mount Washington, New Hampshire in 1819. This 8.5-mile path is the oldest continually used hiking trail in the United States. The influence of British and European Romanticism reached North America through the transcendentalist movement, and both Ralph Waldo Emerson (1803–82) and Henry David Thoreau (1817-62) were important influences on the outdoors movement in North America. Thoreau's writing on nature and on walking include the posthumously published "Walking" (1862)". His earlier essay "A Walk to Wachusett" (1842) describes a four-day walking tour Thoreau took with a companion from Concord, Massachusetts to the summit of Mount Wachusett, Princeton, Massachusetts and back. In 1876 the Appalachian Mountain Club, America’s earliest recreation organization, was founded to protect the trails and mountains in the northeastern United States.

The oldest hiking trail in the US is an 8.5 mile long route leading to the summit of Mount Washington in New Hampshire. The route was first cleared in 1819 by Abel Crawford and his son.

information_extraction

### Instruction: What is the oldest hiking trail in the US? ### Context: An early example of an interest in hiking in the United States is Abel Crawford and his son Ethan's clearing of a trail to the summit of Mount Washington, New Hampshire in 1819. This 8.5-mile path is the oldest continually used hiking trail in the United States. The influence of British and European Romanticism reached North America through the transcendentalist movement, and both Ralph Waldo Emerson (1803–82) and Henry David Thoreau (1817-62) were important influences on the outdoors movement in North America. Thoreau's writing on nature and on walking include the posthumously published "Walking" (1862)". His earlier essay "A Walk to Wachusett" (1842) describes a four-day walking tour Thoreau took with a companion from Concord, Massachusetts to the summit of Mount Wachusett, Princeton, Massachusetts and back. In 1876 the Appalachian Mountain Club, America’s earliest recreation organization, was founded to protect the trails and mountains in the northeastern United States. ### Answer: The oldest hiking trail in the US is an 8.5 mile long route leading to the summit of Mount Washington in New Hampshire. The route was first cleared in 1819 by Abel Crawford and his son.

From the passage provided, extract where Java was developed

Java is a high-level, class-based, object-oriented programming language that is designed to have as few implementation dependencies as possible. It is a general-purpose programming language intended to let programmers write once, run anywhere (WORA), meaning that compiled Java code can run on all platforms that support Java without the need to recompile. Java applications are typically compiled to bytecode that can run on any Java virtual machine (JVM) regardless of the underlying computer architecture. The syntax of Java is similar to C and C++, but has fewer low-level facilities than either of them. The Java runtime provides dynamic capabilities (such as reflection and runtime code modification) that are typically not available in traditional compiled languages. As of 2019, Java was one of the most popular programming languages in use according to GitHub,[citation not found] particularly for client–server web applications, with a reported 9 million developers. Java was originally developed by James Gosling at Sun Microsystems. It was released in May 1995 as a core component of Sun Microsystems' Java platform. The original and reference implementation Java compilers, virtual machines, and class libraries were originally released by Sun under proprietary licenses. As of May 2007, in compliance with the specifications of the Java Community Process, Sun had relicensed most of its Java technologies under the GPL-2.0-only license. Oracle offers its own HotSpot Java Virtual Machine, however the official reference implementation is the OpenJDK JVM which is free open-source software and used by most developers and is the default JVM for almost all Linux distributions. As of March 2023, Java 20 is the latest version, while Java 17, 11 and 8 are the current long-term support (LTS) versions.

Java was originally developed by James Gosling at Sun Microsystems.

information_extraction

### Instruction: From the passage provided, extract where Java was developed ### Context: Java is a high-level, class-based, object-oriented programming language that is designed to have as few implementation dependencies as possible. It is a general-purpose programming language intended to let programmers write once, run anywhere (WORA), meaning that compiled Java code can run on all platforms that support Java without the need to recompile. Java applications are typically compiled to bytecode that can run on any Java virtual machine (JVM) regardless of the underlying computer architecture. The syntax of Java is similar to C and C++, but has fewer low-level facilities than either of them. The Java runtime provides dynamic capabilities (such as reflection and runtime code modification) that are typically not available in traditional compiled languages. As of 2019, Java was one of the most popular programming languages in use according to GitHub,[citation not found] particularly for client–server web applications, with a reported 9 million developers. Java was originally developed by James Gosling at Sun Microsystems. It was released in May 1995 as a core component of Sun Microsystems' Java platform. The original and reference implementation Java compilers, virtual machines, and class libraries were originally released by Sun under proprietary licenses. As of May 2007, in compliance with the specifications of the Java Community Process, Sun had relicensed most of its Java technologies under the GPL-2.0-only license. Oracle offers its own HotSpot Java Virtual Machine, however the official reference implementation is the OpenJDK JVM which is free open-source software and used by most developers and is the default JVM for almost all Linux distributions. As of March 2023, Java 20 is the latest version, while Java 17, 11 and 8 are the current long-term support (LTS) versions. ### Answer: Java was originally developed by James Gosling at Sun Microsystems.

List the universities in Dublin in order of founding year ascending. Supply the answer as an enumerated list in the format {University name}, {Year of founding}

Dublin is the largest centre of education in Ireland, and is home to four universities and a number of other higher education institutions. It was the European Capital of Science in 2012. The University of Dublin is the oldest university in Ireland, dating from the 16th century, and is located in the city centre. Its sole constituent college, Trinity College (TCD), was established by Royal Charter in 1592 under Elizabeth I. It was closed to Roman Catholics until 1793, and the Catholic hierarchy then banned Roman Catholics from attending until 1970. It is situated in the city centre, on College Green, and has over 18,000 students. The National University of Ireland (NUI) has its seat in Dublin, which is also the location of the associated constituent university of University College Dublin (UCD), which has over 30,000 students. Founded in 1854, it is now the largest university in Ireland. UCD's main campus is at Belfield, about 5 km (3 mi) from the city centre, in the southeastern suburbs. As of 2019, Dublin's principal, and Ireland's largest, institution for technological education and research, Dublin Institute of Technology (DIT), with origins in 1887, has merged with two major suburban third level institutions, Institute of Technology, Tallaght and Institute of Technology, Blanchardstown, to form Technological University Dublin, Ireland's second largest university by student population. The new university offers a wide range of courses in areas include engineering, architecture, the sciences, health, journalism, digital media, hospitality, business, art and design, music and the humanities programmes, and has three long-term campuses, at Grangegorman, Tallaght and Blanchardstown. Dublin City University (DCU), formerly the National Institute for Higher Education (NIHE) Dublin, offers courses in business, engineering, science, communication courses, languages and primary education. It has around 16,000 students, and its main campus is located about 7 km (4 mi) from the city centre, in the northern suburbs. Aside from the main Glasnevin Campus, the Drumcondra campuses includes the former St. Patrick's College of Education, Drumcondra now also hosting students from the nearby Mater Dei Institute of Education and students from the Church of Ireland College of Education at the DCU Campus at All Hallows College. The Royal College of Surgeons in Ireland (RCSI) conducts a medical school which is both a university (since 2019) and a recognised college of the NUI, and is situated at St. Stephen's Green in the city centre; there are also large medical schools within UCD and Trinity College. The Royal College of Surgeons in Ireland, which is also known as RCSI University of Medicine and Health Sciences, Ireland's first private university. It was established in 1784 as the national body for the surgical branch of medicine in Ireland, with a role in supervision of training, and as of 2021 provides a broad range of medical education in multiple countries.

1. Trinity College Dublin (TCD), 1592 2. Royal College of Surgeons in Ireland (RCSI), 1784 3. University College Dublin (UCD), 1854 4. Dublin Institute of Technology (DIT), 1887 5. Dublin City University (DCU), 1975

information_extraction

### Instruction: List the universities in Dublin in order of founding year ascending. Supply the answer as an enumerated list in the format {University name}, {Year of founding} ### Context: Dublin is the largest centre of education in Ireland, and is home to four universities and a number of other higher education institutions. It was the European Capital of Science in 2012. The University of Dublin is the oldest university in Ireland, dating from the 16th century, and is located in the city centre. Its sole constituent college, Trinity College (TCD), was established by Royal Charter in 1592 under Elizabeth I. It was closed to Roman Catholics until 1793, and the Catholic hierarchy then banned Roman Catholics from attending until 1970. It is situated in the city centre, on College Green, and has over 18,000 students. The National University of Ireland (NUI) has its seat in Dublin, which is also the location of the associated constituent university of University College Dublin (UCD), which has over 30,000 students. Founded in 1854, it is now the largest university in Ireland. UCD's main campus is at Belfield, about 5 km (3 mi) from the city centre, in the southeastern suburbs. As of 2019, Dublin's principal, and Ireland's largest, institution for technological education and research, Dublin Institute of Technology (DIT), with origins in 1887, has merged with two major suburban third level institutions, Institute of Technology, Tallaght and Institute of Technology, Blanchardstown, to form Technological University Dublin, Ireland's second largest university by student population. The new university offers a wide range of courses in areas include engineering, architecture, the sciences, health, journalism, digital media, hospitality, business, art and design, music and the humanities programmes, and has three long-term campuses, at Grangegorman, Tallaght and Blanchardstown. Dublin City University (DCU), formerly the National Institute for Higher Education (NIHE) Dublin, offers courses in business, engineering, science, communication courses, languages and primary education. It has around 16,000 students, and its main campus is located about 7 km (4 mi) from the city centre, in the northern suburbs. Aside from the main Glasnevin Campus, the Drumcondra campuses includes the former St. Patrick's College of Education, Drumcondra now also hosting students from the nearby Mater Dei Institute of Education and students from the Church of Ireland College of Education at the DCU Campus at All Hallows College. The Royal College of Surgeons in Ireland (RCSI) conducts a medical school which is both a university (since 2019) and a recognised college of the NUI, and is situated at St. Stephen's Green in the city centre; there are also large medical schools within UCD and Trinity College. The Royal College of Surgeons in Ireland, which is also known as RCSI University of Medicine and Health Sciences, Ireland's first private university. It was established in 1784 as the national body for the surgical branch of medicine in Ireland, with a role in supervision of training, and as of 2021 provides a broad range of medical education in multiple countries. ### Answer: 1. Trinity College Dublin (TCD), 1592 2. Royal College of Surgeons in Ireland (RCSI), 1784 3. University College Dublin (UCD), 1854 4. Dublin Institute of Technology (DIT), 1887 5. Dublin City University (DCU), 1975

Name the main characters of Feluda series by Satyajit Ray.

Feluda, or Prodosh Chandra Mitra [Mitter], is a fictional detective, Private investigator created by famous Indian director and writer Satyajit Ray. Feluda resides at 21 Rajani Sen Road, Ballygunge, Calcutta, West Bengal. Feluda first made his appearance in a Bengali children's magazine called Sandesh in 1965, under the editorialship of Ray and Subhas Mukhopadhyay. His first adventure was Feludar Goendagiri. Feluda is one of the most impactful Bengali characters of all time. Feluda is often accompanied by his cousin, who is also his assistant, Tapesh Ranjan Mitter (affectionately called Topshe by Feluda), who serves as the narrator of the stories. From the sixth story, Sonar Kella (The Golden Fortress), the duo are joined by a popular thriller writer Jatayu (Lalmohon Ganguli). Feluda has had been filmed at times, with the character been played by Soumitra Chatterjee, Sabyasachi Chakrabarty, Ahmed Rubel, Shashi Kapoor, Abir Chatterjee, Parambrata Chatterjee, Tota Roy Chowdhury and Indraneil Sengupta. Satyajit Ray directed two Feluda movies — Sonar Kella (1974) and Joi Baba Felunath (1978). Sandip Ray made a new Feluda film series (continuation of the original series) on Feluda's adventures which started from Baksho Rahashya (1996). In this series he made ten TV films and six theatrical films in Bengali on the character. Sandip Ray also made a stand-alone Feluda film Badshahi Angti (2014) which was intended to be the first film of a reboot series featuring Abir Chatterjee, but the projects were ultimately shelved and Sandip Ray revived his original film series starring Sabyasachi Chakrabarty.

The main characters of Feluda by are Feluda (Prodosh Chandra Mitter), Topshe (Tapesh Ranjan Mitter) and Jatayu (Lalmohon Ganguli).

information_extraction

### Instruction: Name the main characters of Feluda series by Satyajit Ray. ### Context: Feluda, or Prodosh Chandra Mitra [Mitter], is a fictional detective, Private investigator created by famous Indian director and writer Satyajit Ray. Feluda resides at 21 Rajani Sen Road, Ballygunge, Calcutta, West Bengal. Feluda first made his appearance in a Bengali children's magazine called Sandesh in 1965, under the editorialship of Ray and Subhas Mukhopadhyay. His first adventure was Feludar Goendagiri. Feluda is one of the most impactful Bengali characters of all time. Feluda is often accompanied by his cousin, who is also his assistant, Tapesh Ranjan Mitter (affectionately called Topshe by Feluda), who serves as the narrator of the stories. From the sixth story, Sonar Kella (The Golden Fortress), the duo are joined by a popular thriller writer Jatayu (Lalmohon Ganguli). Feluda has had been filmed at times, with the character been played by Soumitra Chatterjee, Sabyasachi Chakrabarty, Ahmed Rubel, Shashi Kapoor, Abir Chatterjee, Parambrata Chatterjee, Tota Roy Chowdhury and Indraneil Sengupta. Satyajit Ray directed two Feluda movies — Sonar Kella (1974) and Joi Baba Felunath (1978). Sandip Ray made a new Feluda film series (continuation of the original series) on Feluda's adventures which started from Baksho Rahashya (1996). In this series he made ten TV films and six theatrical films in Bengali on the character. Sandip Ray also made a stand-alone Feluda film Badshahi Angti (2014) which was intended to be the first film of a reboot series featuring Abir Chatterjee, but the projects were ultimately shelved and Sandip Ray revived his original film series starring Sabyasachi Chakrabarty. ### Answer: The main characters of Feluda by are Feluda (Prodosh Chandra Mitter), Topshe (Tapesh Ranjan Mitter) and Jatayu (Lalmohon Ganguli).

Extract best tourist attractions in Karnataka

By virtue of its varied geography and long history, Karnataka hosts numerous spots of interest for tourists. There is an array of ancient sculptured temples, modern cities, scenic hill ranges, forests and beaches. Karnataka has been ranked as the fourth most popular destination for tourism among the states of India. Karnataka has the second highest number of nationally protected monuments in India, second only to Uttar Pradesh, in addition to 752 monuments protected by the State Directorate of Archaeology and Museums. Another 25,000 monuments are yet to receive protection. The districts of the Western Ghats and the southern districts of the state have popular eco-tourism locations including Kudremukh, Madikeri and Agumbe. Karnataka has 25 wildlife sanctuaries and five national parks. Popular among them are Bandipura National Park, Bannerghatta National Park and Nagarhole National Park. The ruins of the Vijayanagara Empire at Hampi and the monuments of Pattadakal are on the list of UNESCO's World Heritage Sites. The cave temples at Badami and the rock-cut temples at Aihole representing the Badami Chalukyan style of architecture are also popular tourist destinations. The Hoysala temples at Beluru and Halebidu, which were built with Chloritic schist (soapstone) are proposed UNESCO World Heritage sites. The Gol Gumbaz and Ibrahim Rauza are famous examples of the Deccan Sultanate style of architecture. The monolith of Gomateshwara Bahubali at Shravanabelagola is the tallest sculpted monolith in the world, attracting tens of thousands of pilgrims during the Mahamastakabhisheka festival. Golden 5-storey Mysore Palace building with 21 domed towers and central spire Mysore Palace in the evening, the official residence and seat of the Wodeyar dynasty, the rulers of Mysore of the Mysore Kingdom, the royal family of Mysore. The waterfalls of Karnataka and Kudremukh are considered by some to be among the "1001 Natural Wonders of the World". Jog Falls is India's tallest single-tiered waterfall with Gokak Falls, Unchalli Falls, Magod Falls, Abbey Falls and Shivanasamudra Falls among other popular waterfalls. Several popular beaches dot the coastline, including Murudeshwara, Gokarna, Malpe and Karwar. In addition, Karnataka is home to several places of religious importance. Several Hindu temples including the famous Udupi Sri Krishna Matha, the Marikamba Temple at Sirsi, the Kollur Mookambika Temple, the Sri Manjunatha Temple at Dharmasthala, Kukke Subramanya Temple, Janardhana and Mahakali Temple at Ambalpadi, Sharadamba Temple at Shringeri attract pilgrims from all over India. Most of the holy sites of Lingayatism, like Kudalasangama and Basavana Bagewadi, are found in northern parts of the state. Shravanabelagola, Mudabidri and Karkala are famous for Jain history and monuments. Jainism had a stronghold in Karnataka in the early medieval period with Shravanabelagola as its most important centre. The Shettihalli Rosary Church near Shettihalli, an example of French colonial Gothic architecture, is a rare example of a Christian ruin, is a popular tourist site. Karnataka has become a center of health care tourism and has the highest number of approved health systems and alternative therapies in India. Along with some ISO certified government-owned hospitals, private institutions which provide international-quality services, Hospitals in Karnataka treat around 8,000 health tourists every year.

Karnataka has an array of ancient sculptured temples, modern cities, scenic hill ranges, forests and beaches. Places such as Kudremukh, Madikeri and Agumbe are from western ghats which have scenic hills. Hampi, Pattadakal are on the list of UNESCO's World Heritage Sites. Badami and Aihole are famous for Chalukyan architecture. Several beaches like Murudeshwara, Gokarna, Malpe and Karwar are popular. Apart from this there are several Hindu temples including the famous Udupi Sri Krishna Matha, the Marikamba Temple at Sirsi, the Kollur Mookambika Temple, the Sri Manjunatha Temple at Dharmasthala, Kukke Subramanya Temple, Janardhana and Mahakali Temple at Ambalpadi, Sharadamba Temple at Sringeri attract pilgrims from all over India

information_extraction

### Instruction: Extract best tourist attractions in Karnataka ### Context: By virtue of its varied geography and long history, Karnataka hosts numerous spots of interest for tourists. There is an array of ancient sculptured temples, modern cities, scenic hill ranges, forests and beaches. Karnataka has been ranked as the fourth most popular destination for tourism among the states of India. Karnataka has the second highest number of nationally protected monuments in India, second only to Uttar Pradesh, in addition to 752 monuments protected by the State Directorate of Archaeology and Museums. Another 25,000 monuments are yet to receive protection. The districts of the Western Ghats and the southern districts of the state have popular eco-tourism locations including Kudremukh, Madikeri and Agumbe. Karnataka has 25 wildlife sanctuaries and five national parks. Popular among them are Bandipura National Park, Bannerghatta National Park and Nagarhole National Park. The ruins of the Vijayanagara Empire at Hampi and the monuments of Pattadakal are on the list of UNESCO's World Heritage Sites. The cave temples at Badami and the rock-cut temples at Aihole representing the Badami Chalukyan style of architecture are also popular tourist destinations. The Hoysala temples at Beluru and Halebidu, which were built with Chloritic schist (soapstone) are proposed UNESCO World Heritage sites. The Gol Gumbaz and Ibrahim Rauza are famous examples of the Deccan Sultanate style of architecture. The monolith of Gomateshwara Bahubali at Shravanabelagola is the tallest sculpted monolith in the world, attracting tens of thousands of pilgrims during the Mahamastakabhisheka festival. Golden 5-storey Mysore Palace building with 21 domed towers and central spire Mysore Palace in the evening, the official residence and seat of the Wodeyar dynasty, the rulers of Mysore of the Mysore Kingdom, the royal family of Mysore. The waterfalls of Karnataka and Kudremukh are considered by some to be among the "1001 Natural Wonders of the World". Jog Falls is India's tallest single-tiered waterfall with Gokak Falls, Unchalli Falls, Magod Falls, Abbey Falls and Shivanasamudra Falls among other popular waterfalls. Several popular beaches dot the coastline, including Murudeshwara, Gokarna, Malpe and Karwar. In addition, Karnataka is home to several places of religious importance. Several Hindu temples including the famous Udupi Sri Krishna Matha, the Marikamba Temple at Sirsi, the Kollur Mookambika Temple, the Sri Manjunatha Temple at Dharmasthala, Kukke Subramanya Temple, Janardhana and Mahakali Temple at Ambalpadi, Sharadamba Temple at Shringeri attract pilgrims from all over India. Most of the holy sites of Lingayatism, like Kudalasangama and Basavana Bagewadi, are found in northern parts of the state. Shravanabelagola, Mudabidri and Karkala are famous for Jain history and monuments. Jainism had a stronghold in Karnataka in the early medieval period with Shravanabelagola as its most important centre. The Shettihalli Rosary Church near Shettihalli, an example of French colonial Gothic architecture, is a rare example of a Christian ruin, is a popular tourist site. Karnataka has become a center of health care tourism and has the highest number of approved health systems and alternative therapies in India. Along with some ISO certified government-owned hospitals, private institutions which provide international-quality services, Hospitals in Karnataka treat around 8,000 health tourists every year. ### Answer: Karnataka has an array of ancient sculptured temples, modern cities, scenic hill ranges, forests and beaches. Places such as Kudremukh, Madikeri and Agumbe are from western ghats which have scenic hills. Hampi, Pattadakal are on the list of UNESCO's World Heritage Sites. Badami and Aihole are famous for Chalukyan architecture. Several beaches like Murudeshwara, Gokarna, Malpe and Karwar are popular. Apart from this there are several Hindu temples including the famous Udupi Sri Krishna Matha, the Marikamba Temple at Sirsi, the Kollur Mookambika Temple, the Sri Manjunatha Temple at Dharmasthala, Kukke Subramanya Temple, Janardhana and Mahakali Temple at Ambalpadi, Sharadamba Temple at Sringeri attract pilgrims from all over India

What's the relation between the Kushan Empire and the Sassanid Empire in Iran?

The Kushan Empire was a syncretic empire, formed by the Yuezhi, in the Bactrian territories in the early 1st century. It spread to encompass much of modern-day territory of Uzbekistan, Afghanistan, Pakistan and Northern India. The Sasanian or Sassanid Empire officially known as Eranshahr was the last Iranian empire before the early Muslim conquests of the 7th–8th centuries AD. Named after the House of Sasan, it endured for over four centuries, from 224 to 651 AD, making it the longest-lived Persian imperial dynasty.[

Kushano-Sasanian Kingdom (also called Kushanshahs, or Koshano Shao in Bactrian, or Indo-Sasanians) is a historiographic term used by modern scholars to refer to a branch of the Sasanian Persians who established their rule in Bactria during the 3rd and 4th centuries CE at the expense of the declining Kushans. They captured the provinces of Sogdiana, Bactria and Gandhara from the Kushans in 225 CE. The Sasanians established governors for the Sasanian Empire, who minted their own coinage and took the title of Kushanshas, i.e. "Kings of the Kushans". They are sometimes considered as forming a "sub-kingdom" inside the Sassanid Empire.

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### Instruction: What's the relation between the Kushan Empire and the Sassanid Empire in Iran? ### Context: The Kushan Empire was a syncretic empire, formed by the Yuezhi, in the Bactrian territories in the early 1st century. It spread to encompass much of modern-day territory of Uzbekistan, Afghanistan, Pakistan and Northern India. The Sasanian or Sassanid Empire officially known as Eranshahr was the last Iranian empire before the early Muslim conquests of the 7th–8th centuries AD. Named after the House of Sasan, it endured for over four centuries, from 224 to 651 AD, making it the longest-lived Persian imperial dynasty.[ ### Answer: Kushano-Sasanian Kingdom (also called Kushanshahs, or Koshano Shao in Bactrian, or Indo-Sasanians) is a historiographic term used by modern scholars to refer to a branch of the Sasanian Persians who established their rule in Bactria during the 3rd and 4th centuries CE at the expense of the declining Kushans. They captured the provinces of Sogdiana, Bactria and Gandhara from the Kushans in 225 CE. The Sasanians established governors for the Sasanian Empire, who minted their own coinage and took the title of Kushanshas, i.e. "Kings of the Kushans". They are sometimes considered as forming a "sub-kingdom" inside the Sassanid Empire.

Is KQKZ a commercial radio station?

KQKZ (92.1 FM "Q92.1") is a commercial radio station that is licensed to serve the community of Bakersfield, California. It is owned by Lotus Communications. Its studios are located in southwest Bakersfield, while its transmitter is located northeast of the city. It is a classic hits station branded Q92.1 (pronounced Q ninety-two-one).

Yes, it is a commercial radio station.

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### Instruction: Is KQKZ a commercial radio station? ### Context: KQKZ (92.1 FM "Q92.1") is a commercial radio station that is licensed to serve the community of Bakersfield, California. It is owned by Lotus Communications. Its studios are located in southwest Bakersfield, while its transmitter is located northeast of the city. It is a classic hits station branded Q92.1 (pronounced Q ninety-two-one). ### Answer: Yes, it is a commercial radio station.

What are the most common causes of avalanches, in descending order of likelihood (where most likely is first)?

Most avalanches occur spontaneously during storms under increased load due to snowfall and/or erosion. The second largest cause of natural avalanches is metamorphic changes in the snowpack such as melting due to solar radiation. Other natural causes include rain, earthquakes, rockfall and icefall. Artificial triggers of avalanches include skiers, snowmobiles, and controlled explosive work. Contrary to popular belief, avalanches are not triggered by loud sound; the pressure from sound is orders of magnitude too small to trigger an avalanche. Avalanche initiation can start at a point with only a small amount of snow moving initially; this is typical of wet snow avalanches or avalanches in dry unconsolidated snow. However, if the snow has sintered into a stiff slab overlying a weak layer then fractures can propagate very rapidly, so that a large volume of snow, that may be thousands of cubic metres, can start moving almost simultaneously. A snowpack will fail when the load exceeds the strength. The load is straightforward; it is the weight of the snow. However, the strength of the snowpack is much more difficult to determine and is extremely heterogeneous. It varies in detail with properties of the snow grains, size, density, morphology, temperature, water content; and the properties of the bonds between the grains. These properties may all metamorphose in time according to the local humidity, water vapour flux, temperature and heat flux. The top of the snowpack is also extensively influenced by incoming radiation and the local air flow. One of the aims of avalanche research is to develop and validate computer models that can describe the evolution of the seasonal snowpack over time. A complicating factor is the complex interaction of terrain and weather, which causes significant spatial and temporal variability of the depths, crystal forms, and layering of the seasonal snowpack.

The most likely causes of avalanches, in order of likelihood, are: - Increased snow loads during storms - Erosion in the snowpack caused by storms - Metamorphic changes in the snowpack such as melting due to weather or rain - Earthquakes that trigger shifting in the snowpack - Falling objects, such as rockfall and snowfall, can trigger avalanches - Human triggers, such as skiers, snowmobiles, and controlled explosives.

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### Instruction: What are the most common causes of avalanches, in descending order of likelihood (where most likely is first)? ### Context: Most avalanches occur spontaneously during storms under increased load due to snowfall and/or erosion. The second largest cause of natural avalanches is metamorphic changes in the snowpack such as melting due to solar radiation. Other natural causes include rain, earthquakes, rockfall and icefall. Artificial triggers of avalanches include skiers, snowmobiles, and controlled explosive work. Contrary to popular belief, avalanches are not triggered by loud sound; the pressure from sound is orders of magnitude too small to trigger an avalanche. Avalanche initiation can start at a point with only a small amount of snow moving initially; this is typical of wet snow avalanches or avalanches in dry unconsolidated snow. However, if the snow has sintered into a stiff slab overlying a weak layer then fractures can propagate very rapidly, so that a large volume of snow, that may be thousands of cubic metres, can start moving almost simultaneously. A snowpack will fail when the load exceeds the strength. The load is straightforward; it is the weight of the snow. However, the strength of the snowpack is much more difficult to determine and is extremely heterogeneous. It varies in detail with properties of the snow grains, size, density, morphology, temperature, water content; and the properties of the bonds between the grains. These properties may all metamorphose in time according to the local humidity, water vapour flux, temperature and heat flux. The top of the snowpack is also extensively influenced by incoming radiation and the local air flow. One of the aims of avalanche research is to develop and validate computer models that can describe the evolution of the seasonal snowpack over time. A complicating factor is the complex interaction of terrain and weather, which causes significant spatial and temporal variability of the depths, crystal forms, and layering of the seasonal snowpack. ### Answer: The most likely causes of avalanches, in order of likelihood, are: - Increased snow loads during storms - Erosion in the snowpack caused by storms - Metamorphic changes in the snowpack such as melting due to weather or rain - Earthquakes that trigger shifting in the snowpack - Falling objects, such as rockfall and snowfall, can trigger avalanches - Human triggers, such as skiers, snowmobiles, and controlled explosives.

what is Financial centre

A financial centre (BE), financial center (AE), or financial hub, is a location with a concentration of participants in banking, asset management, insurance or financial markets with venues and supporting services for these activities to take place.[

A financial centre (BE), financial center (AE), or financial hub, is a location with a concentration of participants in banking, asset management, insurance or financial markets with venues and supporting services for these activities to take place. Participants can include financial intermediaries (such as banks and brokers), institutional investors (such as investment managers, pension funds, insurers, and hedge funds), and issuers (such as companies and governments). Trading activity can take place on venues such as exchanges and involve clearing houses, although many transactions take place over-the-counter (OTC), that is directly between participants. Financial centres usually host companies that offer a wide range of financial services, for example relating to mergers and acquisitions, public offerings, or corporate actions; or which participate in other areas of finance, such as private equity, hedge funds, and reinsurance. Ancillary financial services include rating agencies, as well as provision of related professional services, particularly legal advice and accounting services. The International Monetary Fund's classes of major financial centres are: International Financial Centres (IFCs), such as New York City, London, and Singapore; Regional Financial Centres (RFCs), such as Shanghai, Shenzhen, Frankfurt, and Sydney; and Offshore Financial Centres (OFCs), such as Cayman Islands, Dublin, and Hong Kong. The City of London (the "Square Mile") is one of the oldest financial centres. London is ranked as one of the largest International Financial Centres in the world. International Financial Centres, and many Regional Financial Centres, are full–service financial centres with direct access to large capital pools from banks, insurance companies, investment funds, and listed capital markets, and are major global cities. Offshore Financial Centres, and also some Regional Financial Centres, tend to specialise in tax-driven services, such as corporate tax planning tools, tax–neutral vehicles, and shadow banking/securitisation, and can include smaller locations (e.g. Luxembourg), or city-states (e.g. Singapore). The IMF notes an overlap between Regional Financial Centres and Offshore Financial Centres (e.g. Hong Kong and Singapore are both Offshore Financial Centres and Regional Financial Centres). Since 2010, academics consider Offshore Financial Centres synonymous with tax havens.

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### Instruction: what is Financial centre ### Context: A financial centre (BE), financial center (AE), or financial hub, is a location with a concentration of participants in banking, asset management, insurance or financial markets with venues and supporting services for these activities to take place.[ ### Answer: A financial centre (BE), financial center (AE), or financial hub, is a location with a concentration of participants in banking, asset management, insurance or financial markets with venues and supporting services for these activities to take place. Participants can include financial intermediaries (such as banks and brokers), institutional investors (such as investment managers, pension funds, insurers, and hedge funds), and issuers (such as companies and governments). Trading activity can take place on venues such as exchanges and involve clearing houses, although many transactions take place over-the-counter (OTC), that is directly between participants. Financial centres usually host companies that offer a wide range of financial services, for example relating to mergers and acquisitions, public offerings, or corporate actions; or which participate in other areas of finance, such as private equity, hedge funds, and reinsurance. Ancillary financial services include rating agencies, as well as provision of related professional services, particularly legal advice and accounting services. The International Monetary Fund's classes of major financial centres are: International Financial Centres (IFCs), such as New York City, London, and Singapore; Regional Financial Centres (RFCs), such as Shanghai, Shenzhen, Frankfurt, and Sydney; and Offshore Financial Centres (OFCs), such as Cayman Islands, Dublin, and Hong Kong. The City of London (the "Square Mile") is one of the oldest financial centres. London is ranked as one of the largest International Financial Centres in the world. International Financial Centres, and many Regional Financial Centres, are full–service financial centres with direct access to large capital pools from banks, insurance companies, investment funds, and listed capital markets, and are major global cities. Offshore Financial Centres, and also some Regional Financial Centres, tend to specialise in tax-driven services, such as corporate tax planning tools, tax–neutral vehicles, and shadow banking/securitisation, and can include smaller locations (e.g. Luxembourg), or city-states (e.g. Singapore). The IMF notes an overlap between Regional Financial Centres and Offshore Financial Centres (e.g. Hong Kong and Singapore are both Offshore Financial Centres and Regional Financial Centres). Since 2010, academics consider Offshore Financial Centres synonymous with tax havens.

From the passage note down the various video categories on YouTube. List the results in comma separated format.

YouTube is an American global online video sharing and social media platform headquartered in San Bruno, California, United States. It was launched on February 14, 2005, by Steve Chen, Chad Hurley, and Jawed Karim. It is owned by Google and is the second most visited website, after Google Search. YouTube has more than 2.5 billion monthly users, who collectively watch more than one billion hours of videos each day. As of May 2019, videos were being uploaded at a rate of more than 500 hours of content per minute.In October 2006, YouTube was bought by Google for $1.65 billion. Google's ownership of YouTube expanded the site's business model, expanding from generating revenue from advertisements alone to offering paid content such as movies and exclusive content produced by YouTube. It also offers YouTube Premium, a paid subscription option for watching content without ads. YouTube also approved creators to participate in Google's AdSense program, which seeks to generate more revenue for both parties. YouTube reported revenue of $29.2 billion in 2022. In 2021, YouTube's annual advertising revenue increased to $28.8 billion, an increase in revenue of 9 billion from the previous year.Since its purchase by Google, YouTube has expanded beyond the core website into mobile apps, network television, and the ability to link with other platforms. Video categories on YouTube include music videos, video clips, news, short films, feature films, songs, documentaries, movie trailers, teasers, live streams, vlogs, and more. Most content is generated by individuals, including collaborations between YouTubers and corporate sponsors. Established media corporations such as Disney, Paramount, NBCUniversal, and Warner Bros. Discovery have also created and expanded their corporate YouTube channels to advertise to a larger audience.YouTube has had unprecedented social impact, influencing popular culture, internet trends, and creating multimillionaire celebrities. Despite all its growth and success, YouTube has been widely criticized. Criticism of YouTube includes the website being used to facilitate the spread of misinformation, copyright issues, routine violations of its users' privacy, enabling censorship, their guidelines and how they are implemented, and endangering child safety and wellbeing.

music videos, video clips, news, short films, feature films, songs, documentaries, movie trailers, teasers, live streams, vlogs

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### Instruction: From the passage note down the various video categories on YouTube. List the results in comma separated format. ### Context: YouTube is an American global online video sharing and social media platform headquartered in San Bruno, California, United States. It was launched on February 14, 2005, by Steve Chen, Chad Hurley, and Jawed Karim. It is owned by Google and is the second most visited website, after Google Search. YouTube has more than 2.5 billion monthly users, who collectively watch more than one billion hours of videos each day. As of May 2019, videos were being uploaded at a rate of more than 500 hours of content per minute.In October 2006, YouTube was bought by Google for $1.65 billion. Google's ownership of YouTube expanded the site's business model, expanding from generating revenue from advertisements alone to offering paid content such as movies and exclusive content produced by YouTube. It also offers YouTube Premium, a paid subscription option for watching content without ads. YouTube also approved creators to participate in Google's AdSense program, which seeks to generate more revenue for both parties. YouTube reported revenue of $29.2 billion in 2022. In 2021, YouTube's annual advertising revenue increased to $28.8 billion, an increase in revenue of 9 billion from the previous year.Since its purchase by Google, YouTube has expanded beyond the core website into mobile apps, network television, and the ability to link with other platforms. Video categories on YouTube include music videos, video clips, news, short films, feature films, songs, documentaries, movie trailers, teasers, live streams, vlogs, and more. Most content is generated by individuals, including collaborations between YouTubers and corporate sponsors. Established media corporations such as Disney, Paramount, NBCUniversal, and Warner Bros. Discovery have also created and expanded their corporate YouTube channels to advertise to a larger audience.YouTube has had unprecedented social impact, influencing popular culture, internet trends, and creating multimillionaire celebrities. Despite all its growth and success, YouTube has been widely criticized. Criticism of YouTube includes the website being used to facilitate the spread of misinformation, copyright issues, routine violations of its users' privacy, enabling censorship, their guidelines and how they are implemented, and endangering child safety and wellbeing. ### Answer: music videos, video clips, news, short films, feature films, songs, documentaries, movie trailers, teasers, live streams, vlogs

Extract the population of Teodorów from the following text.

Teodorów [tɛɔˈdɔruf] is a village in the administrative district of Gmina Koniecpol, within Częstochowa County, Silesian Voivodeship, in southern Poland. It lies approximately 7 kilometres (4 mi) east of Koniecpol, 46 km (29 mi) east of Częstochowa, and 82 km (51 mi) north-east of the regional capital Katowice. The village has a population of 107.

The village of Teodorów has a population of 107.

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### Instruction: Extract the population of Teodorów from the following text. ### Context: Teodorów [tɛɔˈdɔruf] is a village in the administrative district of Gmina Koniecpol, within Częstochowa County, Silesian Voivodeship, in southern Poland. It lies approximately 7 kilometres (4 mi) east of Koniecpol, 46 km (29 mi) east of Częstochowa, and 82 km (51 mi) north-east of the regional capital Katowice. The village has a population of 107. ### Answer: The village of Teodorów has a population of 107.

What is the economy size of Tamil Nadu?

As the most urbanised state of India, Tamil Nadu boasts an economy with gross state domestic product (GSDP) of ₹24.85 lakh crore (US$310 billion), marking the second-largest economy amongst the 28 states of India. It has the country's 9th-highest GSDP per capita of ₹225,106 (US$2,800), and ranks 11th in human development index. Tamil Nadu is also one of the most industrialised states, with the manufacturing sector accounting for more than one-third of the state's GDP. Home to a number of ancient relics, historic buildings, religious pilgrimage spots, hill stations, forts, and three World Heritage Sites, Tamil Nadu's tourism industry is the largest among the Indian states. 15% of Tamil Nadu's forests are protected areas, hosting diverse wildlife. The Tamil film industry, nicknamed as Kollywood, plays an influential role in the state's popular culture.

Tamil Nadu is one of the most industrialized and second-largest economy among all states in India with gross state domestic product (GSDP) of US$310 billion.

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### Instruction: What is the economy size of Tamil Nadu? ### Context: As the most urbanised state of India, Tamil Nadu boasts an economy with gross state domestic product (GSDP) of ₹24.85 lakh crore (US$310 billion), marking the second-largest economy amongst the 28 states of India. It has the country's 9th-highest GSDP per capita of ₹225,106 (US$2,800), and ranks 11th in human development index. Tamil Nadu is also one of the most industrialised states, with the manufacturing sector accounting for more than one-third of the state's GDP. Home to a number of ancient relics, historic buildings, religious pilgrimage spots, hill stations, forts, and three World Heritage Sites, Tamil Nadu's tourism industry is the largest among the Indian states. 15% of Tamil Nadu's forests are protected areas, hosting diverse wildlife. The Tamil film industry, nicknamed as Kollywood, plays an influential role in the state's popular culture. ### Answer: Tamil Nadu is one of the most industrialized and second-largest economy among all states in India with gross state domestic product (GSDP) of US$310 billion.

What is fiscal policy in economics and political science?

In economics and political science, fiscal policy is the use of government revenue collection (taxes or tax cuts) and expenditure to influence a country's economy. The use of government revenue expenditures to influence macroeconomic variables developed in reaction to the Great Depression of the 1930s, when the previous laissez-faire approach to economic management became unworkable.

In economics and political science, fiscal policy is the use of government revenue collection (taxes or tax cuts) and expenditure to influence a country's economy. The use of government revenue expenditures to influence macroeconomic variables developed in reaction to the Great Depression of the 1930s, when the previous laissez-faire approach to economic management became unworkable. Fiscal policy is based on the theories of the British economist John Maynard Keynes, whose Keynesian economics theorised that government changes in the levels of taxation and government spending influence aggregate demand and the level of economic activity. Fiscal and monetary policy are the key strategies used by a country's government and central bank to advance its economic objectives. The combination of these policies enables these authorities to target inflation (which is considered "healthy" at the level in the range 2%–3%) and to increase employment. Additionally, it is designed to try to keep GDP growth at 2%–3% and the unemployment rate near the natural unemployment rate of 4%–5%. This implies that fiscal policy is used to stabilise the economy over the course of the business cycle. Changes in the level and composition of taxation and government spending can affect macroeconomic variables, including: aggregate demand and the level of economic activity saving and investment income distribution allocation of resources. Fiscal policy can be distinguished from monetary policy, in that fiscal policy deals with taxation and government spending and is often administered by a government department; while monetary policy deals with the money supply, interest rates and is often administered by a country's central bank. Both fiscal and monetary policies influence a country's economic performance.

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### Instruction: What is fiscal policy in economics and political science? ### Context: In economics and political science, fiscal policy is the use of government revenue collection (taxes or tax cuts) and expenditure to influence a country's economy. The use of government revenue expenditures to influence macroeconomic variables developed in reaction to the Great Depression of the 1930s, when the previous laissez-faire approach to economic management became unworkable. ### Answer: In economics and political science, fiscal policy is the use of government revenue collection (taxes or tax cuts) and expenditure to influence a country's economy. The use of government revenue expenditures to influence macroeconomic variables developed in reaction to the Great Depression of the 1930s, when the previous laissez-faire approach to economic management became unworkable. Fiscal policy is based on the theories of the British economist John Maynard Keynes, whose Keynesian economics theorised that government changes in the levels of taxation and government spending influence aggregate demand and the level of economic activity. Fiscal and monetary policy are the key strategies used by a country's government and central bank to advance its economic objectives. The combination of these policies enables these authorities to target inflation (which is considered "healthy" at the level in the range 2%–3%) and to increase employment. Additionally, it is designed to try to keep GDP growth at 2%–3% and the unemployment rate near the natural unemployment rate of 4%–5%. This implies that fiscal policy is used to stabilise the economy over the course of the business cycle. Changes in the level and composition of taxation and government spending can affect macroeconomic variables, including: aggregate demand and the level of economic activity saving and investment income distribution allocation of resources. Fiscal policy can be distinguished from monetary policy, in that fiscal policy deals with taxation and government spending and is often administered by a government department; while monetary policy deals with the money supply, interest rates and is often administered by a country's central bank. Both fiscal and monetary policies influence a country's economic performance.

From the passage provided, extract where the first session of Indian National Congress was held

The Indian National Congress conducted its first session in Bombay from 28 to 31 December 1885 at the initiative of retired Civil Service officer Allan Octavian Hume, known for his pro-Indian activities. In 1883, Hume had outlined his idea for a body representing Indian interests in an open letter to graduates of the University of Calcutta. It aimed to obtain a greater share in government for educated Indians and to create a platform for civic and political dialogue between them and the British Raj. Hume took the initiative, and in March 1885 a notice convening the first meeting of the Indian National Union to be held in Poona the following December was issued. However due to a cholera outbreak there, it was moved to Bombay.

The Indian National Congress conducted its first session in Bombay from 28 to 31 December 1885.

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### Instruction: From the passage provided, extract where the first session of Indian National Congress was held ### Context: The Indian National Congress conducted its first session in Bombay from 28 to 31 December 1885 at the initiative of retired Civil Service officer Allan Octavian Hume, known for his pro-Indian activities. In 1883, Hume had outlined his idea for a body representing Indian interests in an open letter to graduates of the University of Calcutta. It aimed to obtain a greater share in government for educated Indians and to create a platform for civic and political dialogue between them and the British Raj. Hume took the initiative, and in March 1885 a notice convening the first meeting of the Indian National Union to be held in Poona the following December was issued. However due to a cholera outbreak there, it was moved to Bombay. ### Answer: The Indian National Congress conducted its first session in Bombay from 28 to 31 December 1885.

Why were the Beatles so popular?

The English rock band the Beatles are commonly regarded as the foremost and most influential band in popular music history. With a line-up comprising John Lennon, Paul McCartney, George Harrison and Ringo Starr, they sparked the "Beatlemania" phenomenon in 1963, gained international superstardom in 1964, and remained active until their break-up in 1970. Over the latter half of the decade, they were often viewed as orchestrators of society's developments. Their recognition concerns their effect on the era's youth and counterculture, British identity, popular music's evolution into an art form, and their unprecedented following. Many cultural movements of the 1960s were assisted or inspired by the Beatles. In Britain, their rise to national prominence signalled the youth-driven changes in postwar society, with respect to social mobility, teenagers' commercial influence, and informality. They spearheaded the shift from American artists' global dominance of rock and roll to British acts (known in the US as the British Invasion) and inspired many young people to pursue music careers. From 1964 to 1970, the group had the top-selling US single one out of every six weeks, and the top-selling US album one out of every three weeks. In 1965, they were awarded MBEs, the first time such an honour was bestowed on a British pop act. A year later, Lennon controversially remarked that the band were "more popular than Jesus now". The Beatles often incorporated classical elements, traditional pop forms and unconventional recording techniques in innovative ways, especially with the albums Rubber Soul (1965), Revolver (1966) and Sgt. Pepper's Lonely Hearts Club Band (1967). Many of their advances in production, writing, and artistic presentation were soon widespread. Other cultural changes initiated by the group include the elevation of the album to become the dominant form of record consumption over singles, a wider interest in psychedelic drugs and Eastern spirituality, and several fashion trends. The band also pioneered with their record sleeves and music videos, as well as informed music styles such as jangle, folk rock, power pop, psychedelia, progressive rock and heavy metal. By the end of the decade, the group were seen as an embodiment of the era's sociocultural movements, exemplified by the sentiment of their 1967 song "All You Need Is Love". Over the 1960s as a whole, the Beatles were the dominant youth-centred pop act on the sales charts. They broke numerous sales and attendance records, many of which they have or had maintained for decades, and continue to enjoy a canonised status unprecedented for popular musicians. Their songs are among the most recorded in history, with cover versions of "Yesterday" exceeding thousands. As of 2009, they were the best-selling band in history, with estimated sales of over 600 million records worldwide. Time included them in its list of the twentieth century's 100 most important people.

The Beatles were the foremost rock band in popular music history. They broke numerous sales and many of these have maintained for decades.

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### Instruction: Why were the Beatles so popular? ### Context: The English rock band the Beatles are commonly regarded as the foremost and most influential band in popular music history. With a line-up comprising John Lennon, Paul McCartney, George Harrison and Ringo Starr, they sparked the "Beatlemania" phenomenon in 1963, gained international superstardom in 1964, and remained active until their break-up in 1970. Over the latter half of the decade, they were often viewed as orchestrators of society's developments. Their recognition concerns their effect on the era's youth and counterculture, British identity, popular music's evolution into an art form, and their unprecedented following. Many cultural movements of the 1960s were assisted or inspired by the Beatles. In Britain, their rise to national prominence signalled the youth-driven changes in postwar society, with respect to social mobility, teenagers' commercial influence, and informality. They spearheaded the shift from American artists' global dominance of rock and roll to British acts (known in the US as the British Invasion) and inspired many young people to pursue music careers. From 1964 to 1970, the group had the top-selling US single one out of every six weeks, and the top-selling US album one out of every three weeks. In 1965, they were awarded MBEs, the first time such an honour was bestowed on a British pop act. A year later, Lennon controversially remarked that the band were "more popular than Jesus now". The Beatles often incorporated classical elements, traditional pop forms and unconventional recording techniques in innovative ways, especially with the albums Rubber Soul (1965), Revolver (1966) and Sgt. Pepper's Lonely Hearts Club Band (1967). Many of their advances in production, writing, and artistic presentation were soon widespread. Other cultural changes initiated by the group include the elevation of the album to become the dominant form of record consumption over singles, a wider interest in psychedelic drugs and Eastern spirituality, and several fashion trends. The band also pioneered with their record sleeves and music videos, as well as informed music styles such as jangle, folk rock, power pop, psychedelia, progressive rock and heavy metal. By the end of the decade, the group were seen as an embodiment of the era's sociocultural movements, exemplified by the sentiment of their 1967 song "All You Need Is Love". Over the 1960s as a whole, the Beatles were the dominant youth-centred pop act on the sales charts. They broke numerous sales and attendance records, many of which they have or had maintained for decades, and continue to enjoy a canonised status unprecedented for popular musicians. Their songs are among the most recorded in history, with cover versions of "Yesterday" exceeding thousands. As of 2009, they were the best-selling band in history, with estimated sales of over 600 million records worldwide. Time included them in its list of the twentieth century's 100 most important people. ### Answer: The Beatles were the foremost rock band in popular music history. They broke numerous sales and many of these have maintained for decades.

From the following passage, extract the device used to shoot this film.

High Flying Bird is a 2019 American sports drama film directed by Steven Soderbergh, from a story suggested by André Holland, with the screenplay by Tarell Alvin McCraney. The film stars Holland, Zazie Beetz, Melvin Gregg, Sonja Sohn, Zachary Quinto, Glenn Fleshler, Jeryl Prescott, Justin Hurtt-Dunkley, Caleb McLaughlin, Bobbi Bordley, Kyle MacLachlan and Bill Duke, with additional appearances of basketball players Reggie Jackson, Karl-Anthony Towns and Donovan Mitchell. The film follows a sports agent who must pull off a plan in 72 hours, pitching a controversial opportunity to his client, a rookie basketball player during the company’s lockout. The film was shot entirely on the iPhone 8, becoming Soderbergh's second film to be shot on an iPhone, after Unsane.

High Flying Bird is a 2019 American sports drama film that was shot on the iPhone 8.

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### Instruction: From the following passage, extract the device used to shoot this film. ### Context: High Flying Bird is a 2019 American sports drama film directed by Steven Soderbergh, from a story suggested by André Holland, with the screenplay by Tarell Alvin McCraney. The film stars Holland, Zazie Beetz, Melvin Gregg, Sonja Sohn, Zachary Quinto, Glenn Fleshler, Jeryl Prescott, Justin Hurtt-Dunkley, Caleb McLaughlin, Bobbi Bordley, Kyle MacLachlan and Bill Duke, with additional appearances of basketball players Reggie Jackson, Karl-Anthony Towns and Donovan Mitchell. The film follows a sports agent who must pull off a plan in 72 hours, pitching a controversial opportunity to his client, a rookie basketball player during the company’s lockout. The film was shot entirely on the iPhone 8, becoming Soderbergh's second film to be shot on an iPhone, after Unsane. ### Answer: High Flying Bird is a 2019 American sports drama film that was shot on the iPhone 8.

Name late 19th century scientists credited with making electricity an essential tool for modern life.

Long before any knowledge of electricity existed, people were aware of shocks from electric fish. Ancient Egyptian texts dating from 2750 BCE referred to these fish as the "Thunderer of the Nile", and described them as the "protectors" of all other fish. Electric fish were again reported millennia later by ancient Greek, Roman and Arabic naturalists and physicians. Several ancient writers, such as Pliny the Elder and Scribonius Largus, attested to the numbing effect of electric shocks delivered by electric catfish and electric rays, and knew that such shocks could travel along conducting objects. Patients with ailments such as gout or headache were directed to touch electric fish in the hope that the powerful jolt might cure them. Ancient cultures around the Mediterranean knew that certain objects, such as rods of amber, could be rubbed with cat's fur to attract light objects like feathers. Thales of Miletus made a series of observations on static electricity around 600 BCE, from which he believed that friction rendered amber magnetic, in contrast to minerals such as magnetite, which needed no rubbing. Thales was incorrect in believing the attraction was due to a magnetic effect, but later science would prove a link between magnetism and electricity. According to a controversial theory, the Parthians may have had knowledge of electroplating, based on the 1936 discovery of the Baghdad Battery, which resembles a galvanic cell, though it is uncertain whether the artifact was electrical in nature. Electricity would remain little more than an intellectual curiosity for millennia until 1600, when the English scientist William Gilbert wrote De Magnete, in which he made a careful study of electricity and magnetism, distinguishing the lodestone effect from static electricity produced by rubbing amber. He coined the New Latin word electricus ("of amber" or "like amber",, elektron, the Greek word for "amber") to refer to the property of attracting small objects after being rubbed. This association gave rise to the English words "electric" and "electricity", which made their first appearance in print in Thomas Browne's Pseudodoxia Epidemica of 1646. Further work was conducted in the 17th and early 18th centuries by Otto von Guericke, Robert Boyle, Stephen Gray and C. F. du Fay. Later in the 18th century, Benjamin Franklin conducted extensive research in electricity, selling his possessions to fund his work. In June 1752 he is reputed to have attached a metal key to the bottom of a dampened kite string and flown the kite in a storm-threatened sky. A succession of sparks jumping from the key to the back of his hand showed that lightning was indeed electrical in nature. He also explained the apparently paradoxical behavior of the Leyden jar as a device for storing large amounts of electrical charge in terms of electricity consisting of both positive and negative charges In 1775, Hugh Williamson reported a series of experiments to the Royal Society on the shocks delivered by the electric eel; that same year the surgeon and anatomist John Hunter described the structure of the fish's electric organs. In 1791, Luigi Galvani published his discovery of bioelectromagnetics, demonstrating that electricity was the medium by which neurons passed signals to the muscles. Alessandro Volta's battery, or voltaic pile, of 1800, made from alternating layers of zinc and copper, provided scientists with a more reliable source of electrical energy than the electrostatic machines previously used. The recognition of electromagnetism, the unity of electric and magnetic phenomena, is due to Hans Christian Ørsted and André-Marie Ampère in 1819–1820. Michael Faraday invented the electric motor in 1821, and Georg Ohm mathematically analysed the electrical circuit in 1827. Electricity and magnetism (and light) were definitively linked by James Clerk Maxwell, in particular in his "On Physical Lines of Force" in 1861 and 1862.  While the early 19th century had seen rapid progress in electrical science, the late 19th century would see the greatest progress in electrical engineering. Through such people as Alexander Graham Bell, Ottó Bláthy, Thomas Edison, Galileo Ferraris, Oliver Heaviside, Ányos Jedlik, William Thomson, 1st Baron Kelvin, Charles Algernon Parsons, Werner von Siemens, Joseph Swan, Reginald Fessenden, Nikola Tesla and George Westinghouse, electricity turned from a scientific curiosity into an essential tool for modern life. In 1887, Heinrich Hertz discovered that electrodes illuminated with ultraviolet light create electric sparks more easily. In 1905, Albert Einstein published a paper that explained experimental data from the photoelectric effect as being the result of light energy being carried in discrete quantized packets, energising electrons. This discovery led to the quantum revolution. Einstein was awarded the Nobel Prize in Physics in 1921 for "his discovery of the law of the photoelectric effect". The photoelectric effect is also employed in photocells such as can be found in solar panels. The first solid-state device was the "cat's-whisker detector" first used in the 1900s in radio receivers. A whisker-like wire is placed lightly in contact with a solid crystal (such as a germanium crystal) to detect a radio signal by the contact junction effect. In a solid-state component, the current is confined to solid elements and compounds engineered specifically to switch and amplify it. Current flow can be understood in two forms: as negatively charged electrons, and as positively charged electron deficiencies called holes. These charges and holes are understood in terms of quantum physics. The building material is most often a crystalline semiconductor. Solid-state electronics came into its own with the emergence of transistor technology. The first working transistor, a germanium-based point-contact transistor, was invented by John Bardeen and Walter Houser Brattain at Bell Labs in 1947, followed by the bipolar junction transistor in 1948.

While the early 19th century had seen rapid progress in electrical science, the late 19th century would see the greatest progress in electrical engineering. Through such people as Alexander Graham Bell, Ottó Bláthy, Thomas Edison, Galileo Ferraris, Oliver Heaviside, Ányos Jedlik, William Thomson, 1st Baron Kelvin, Charles Algernon Parsons, Werner von Siemens, Joseph Swan, Reginald Fessenden, Nikola Tesla and George Westinghouse, electricity turned from a scientific curiosity into an essential tool for modern life.

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### Instruction: Name late 19th century scientists credited with making electricity an essential tool for modern life. ### Context: Long before any knowledge of electricity existed, people were aware of shocks from electric fish. Ancient Egyptian texts dating from 2750 BCE referred to these fish as the "Thunderer of the Nile", and described them as the "protectors" of all other fish. Electric fish were again reported millennia later by ancient Greek, Roman and Arabic naturalists and physicians. Several ancient writers, such as Pliny the Elder and Scribonius Largus, attested to the numbing effect of electric shocks delivered by electric catfish and electric rays, and knew that such shocks could travel along conducting objects. Patients with ailments such as gout or headache were directed to touch electric fish in the hope that the powerful jolt might cure them. Ancient cultures around the Mediterranean knew that certain objects, such as rods of amber, could be rubbed with cat's fur to attract light objects like feathers. Thales of Miletus made a series of observations on static electricity around 600 BCE, from which he believed that friction rendered amber magnetic, in contrast to minerals such as magnetite, which needed no rubbing. Thales was incorrect in believing the attraction was due to a magnetic effect, but later science would prove a link between magnetism and electricity. According to a controversial theory, the Parthians may have had knowledge of electroplating, based on the 1936 discovery of the Baghdad Battery, which resembles a galvanic cell, though it is uncertain whether the artifact was electrical in nature. Electricity would remain little more than an intellectual curiosity for millennia until 1600, when the English scientist William Gilbert wrote De Magnete, in which he made a careful study of electricity and magnetism, distinguishing the lodestone effect from static electricity produced by rubbing amber. He coined the New Latin word electricus ("of amber" or "like amber",, elektron, the Greek word for "amber") to refer to the property of attracting small objects after being rubbed. This association gave rise to the English words "electric" and "electricity", which made their first appearance in print in Thomas Browne's Pseudodoxia Epidemica of 1646. Further work was conducted in the 17th and early 18th centuries by Otto von Guericke, Robert Boyle, Stephen Gray and C. F. du Fay. Later in the 18th century, Benjamin Franklin conducted extensive research in electricity, selling his possessions to fund his work. In June 1752 he is reputed to have attached a metal key to the bottom of a dampened kite string and flown the kite in a storm-threatened sky. A succession of sparks jumping from the key to the back of his hand showed that lightning was indeed electrical in nature. He also explained the apparently paradoxical behavior of the Leyden jar as a device for storing large amounts of electrical charge in terms of electricity consisting of both positive and negative charges In 1775, Hugh Williamson reported a series of experiments to the Royal Society on the shocks delivered by the electric eel; that same year the surgeon and anatomist John Hunter described the structure of the fish's electric organs. In 1791, Luigi Galvani published his discovery of bioelectromagnetics, demonstrating that electricity was the medium by which neurons passed signals to the muscles. Alessandro Volta's battery, or voltaic pile, of 1800, made from alternating layers of zinc and copper, provided scientists with a more reliable source of electrical energy than the electrostatic machines previously used. The recognition of electromagnetism, the unity of electric and magnetic phenomena, is due to Hans Christian Ørsted and André-Marie Ampère in 1819–1820. Michael Faraday invented the electric motor in 1821, and Georg Ohm mathematically analysed the electrical circuit in 1827. Electricity and magnetism (and light) were definitively linked by James Clerk Maxwell, in particular in his "On Physical Lines of Force" in 1861 and 1862.  While the early 19th century had seen rapid progress in electrical science, the late 19th century would see the greatest progress in electrical engineering. Through such people as Alexander Graham Bell, Ottó Bláthy, Thomas Edison, Galileo Ferraris, Oliver Heaviside, Ányos Jedlik, William Thomson, 1st Baron Kelvin, Charles Algernon Parsons, Werner von Siemens, Joseph Swan, Reginald Fessenden, Nikola Tesla and George Westinghouse, electricity turned from a scientific curiosity into an essential tool for modern life. In 1887, Heinrich Hertz discovered that electrodes illuminated with ultraviolet light create electric sparks more easily. In 1905, Albert Einstein published a paper that explained experimental data from the photoelectric effect as being the result of light energy being carried in discrete quantized packets, energising electrons. This discovery led to the quantum revolution. Einstein was awarded the Nobel Prize in Physics in 1921 for "his discovery of the law of the photoelectric effect". The photoelectric effect is also employed in photocells such as can be found in solar panels. The first solid-state device was the "cat's-whisker detector" first used in the 1900s in radio receivers. A whisker-like wire is placed lightly in contact with a solid crystal (such as a germanium crystal) to detect a radio signal by the contact junction effect. In a solid-state component, the current is confined to solid elements and compounds engineered specifically to switch and amplify it. Current flow can be understood in two forms: as negatively charged electrons, and as positively charged electron deficiencies called holes. These charges and holes are understood in terms of quantum physics. The building material is most often a crystalline semiconductor. Solid-state electronics came into its own with the emergence of transistor technology. The first working transistor, a germanium-based point-contact transistor, was invented by John Bardeen and Walter Houser Brattain at Bell Labs in 1947, followed by the bipolar junction transistor in 1948. ### Answer: While the early 19th century had seen rapid progress in electrical science, the late 19th century would see the greatest progress in electrical engineering. Through such people as Alexander Graham Bell, Ottó Bláthy, Thomas Edison, Galileo Ferraris, Oliver Heaviside, Ányos Jedlik, William Thomson, 1st Baron Kelvin, Charles Algernon Parsons, Werner von Siemens, Joseph Swan, Reginald Fessenden, Nikola Tesla and George Westinghouse, electricity turned from a scientific curiosity into an essential tool for modern life.

Extract all risk factors for developing cardiovascular diseases for which numbers about their contribution are given and rank them by their relative importance.

The underlying mechanisms for developing cardiovascular diseases (CVD) vary depending on the disease. It is estimated that dietary risk factors are associated with 53% of CVD deaths. Coronary artery disease, stroke, and peripheral artery disease involve atherosclerosis. This may be caused by high blood pressure, smoking, diabetes mellitus, lack of exercise, obesity, high blood cholesterol, poor diet, excessive alcohol consumption,and poor sleep, among other things. High blood pressure is estimated to account for approximately 13% of CVD deaths, while tobacco accounts for 9%, diabetes 6%, lack of exercise 6%, and obesity 5%. Rheumatic heart disease may follow untreated strep throat.

1. Dietary Risk Factors 2. High Blood Pressure 3. Tobacco 4. Diabetes 5. Lack of exercise 6. Obesity

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### Instruction: Extract all risk factors for developing cardiovascular diseases for which numbers about their contribution are given and rank them by their relative importance. ### Context: The underlying mechanisms for developing cardiovascular diseases (CVD) vary depending on the disease. It is estimated that dietary risk factors are associated with 53% of CVD deaths. Coronary artery disease, stroke, and peripheral artery disease involve atherosclerosis. This may be caused by high blood pressure, smoking, diabetes mellitus, lack of exercise, obesity, high blood cholesterol, poor diet, excessive alcohol consumption,and poor sleep, among other things. High blood pressure is estimated to account for approximately 13% of CVD deaths, while tobacco accounts for 9%, diabetes 6%, lack of exercise 6%, and obesity 5%. Rheumatic heart disease may follow untreated strep throat. ### Answer: 1. Dietary Risk Factors 2. High Blood Pressure 3. Tobacco 4. Diabetes 5. Lack of exercise 6. Obesity

How many boilers and engines did the Indiana have, put the answers in comma separated ascending order

Indiana was 351 feet 2 inches (107.04 m) long overall and had a beam of 69 ft 3 in (21.11 m) and a draft of 24 ft (7.3 m). She displaced 10,288 long tons (10,453 t) as designed and up to 11,688 long tons (11,876 t) at full load. The ship was powered by two-shaft triple-expansion steam engines rated at 9,000 indicated horsepower (6,700 kW) and four coal-fired fire-tube boilers, generating a top speed of 15 knots (28 km/h; 17 mph). She had a cruising radius of 5,640 nautical miles (10,450 km; 6,490 mi) at a speed of 10 knots (19 km/h; 12 mph). As built, she was fitted with a heavy military mast, which was later supplemented by a stern cage mast in 1910–1911. She had a crew of 32 officers and 441 enlisted men, which increased to a total of 586–636 officers and enlisted.

Two-shaft triple-expansion steam engines, Four coal-fired fire-tube boilers

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### Instruction: How many boilers and engines did the Indiana have, put the answers in comma separated ascending order ### Context: Indiana was 351 feet 2 inches (107.04 m) long overall and had a beam of 69 ft 3 in (21.11 m) and a draft of 24 ft (7.3 m). She displaced 10,288 long tons (10,453 t) as designed and up to 11,688 long tons (11,876 t) at full load. The ship was powered by two-shaft triple-expansion steam engines rated at 9,000 indicated horsepower (6,700 kW) and four coal-fired fire-tube boilers, generating a top speed of 15 knots (28 km/h; 17 mph). She had a cruising radius of 5,640 nautical miles (10,450 km; 6,490 mi) at a speed of 10 knots (19 km/h; 12 mph). As built, she was fitted with a heavy military mast, which was later supplemented by a stern cage mast in 1910–1911. She had a crew of 32 officers and 441 enlisted men, which increased to a total of 586–636 officers and enlisted. ### Answer: Two-shaft triple-expansion steam engines, Four coal-fired fire-tube boilers

What is the Maareech Advanced Torpedo Defence System (ATDS)?

Maareech Advanced Torpedo Defence System (ATDS) is a torpedo detection and countermeasure system used by the Indian Navy. The system offers a complete solution to detect and locate an incoming torpedo and to apply countermeasures to protect naval platform against torpedo attack. It was developed as a joint project of the Naval Physical and Oceanographic Laboratory (NPOL), Kochi and the Naval Science and Technological Laboratory (NSTL), Visakhapatnam. Bharat Electronics is manufacturing it India.

The Maareech Advanced Torpedo Defence System (ATDS is a torpedo detection and countermeasure system used by the Indian Navy.

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### Instruction: What is the Maareech Advanced Torpedo Defence System (ATDS)? ### Context: Maareech Advanced Torpedo Defence System (ATDS) is a torpedo detection and countermeasure system used by the Indian Navy. The system offers a complete solution to detect and locate an incoming torpedo and to apply countermeasures to protect naval platform against torpedo attack. It was developed as a joint project of the Naval Physical and Oceanographic Laboratory (NPOL), Kochi and the Naval Science and Technological Laboratory (NSTL), Visakhapatnam. Bharat Electronics is manufacturing it India. ### Answer: The Maareech Advanced Torpedo Defence System (ATDS is a torpedo detection and countermeasure system used by the Indian Navy.

Extract all of the names of people mentioned in this paragraph and list them using bullets in the format {Name}

The twelve-member basketball selection committee is made up of athletic directors and conference commissioners throughout Division I men's and women's athletics with separate committees for the men's and women's tournaments. The committees consist of one member selected from each of the five autonomy conferences and three members selected from the seven highest-ranked nonautonomy conferences based on basketball success. The remaining four members are selected from the 20 other conferences. All appointments are for five years. Historically the men's selection committee consisted of all men, and the women's selection committee consisted of all women. However, recently women have been serving on the men’s committee (including Judy Rose, Lynn Hickey, Janet Cone, and current member Bernadette McGlade), and men have been serving on the women’s committee (including Richard Ensor and current member Jeff Konya). The tournament selection is only part of the committee members' duties; the panels meet year-round (in-person or through conference calls) to discuss the tournament and its administration, evaluate teams, assign tournament game officials, and determine future tournament sites.

• Judy Rose • Lynn Hickey • Janet Cone • Bernadette McGlade • Richard Ensor • Jeff Konya

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### Instruction: Extract all of the names of people mentioned in this paragraph and list them using bullets in the format {Name} ### Context: The twelve-member basketball selection committee is made up of athletic directors and conference commissioners throughout Division I men's and women's athletics with separate committees for the men's and women's tournaments. The committees consist of one member selected from each of the five autonomy conferences and three members selected from the seven highest-ranked nonautonomy conferences based on basketball success. The remaining four members are selected from the 20 other conferences. All appointments are for five years. Historically the men's selection committee consisted of all men, and the women's selection committee consisted of all women. However, recently women have been serving on the men’s committee (including Judy Rose, Lynn Hickey, Janet Cone, and current member Bernadette McGlade), and men have been serving on the women’s committee (including Richard Ensor and current member Jeff Konya). The tournament selection is only part of the committee members' duties; the panels meet year-round (in-person or through conference calls) to discuss the tournament and its administration, evaluate teams, assign tournament game officials, and determine future tournament sites. ### Answer: • Judy Rose • Lynn Hickey • Janet Cone • Bernadette McGlade • Richard Ensor • Jeff Konya

From the passage provided, provide the two scenarios in bullet form where radiative heat transfer is an important consideration.

Radiative heat transfer is the transfer of energy via thermal radiation, i.e., electromagnetic waves. It occurs across vacuum or any transparent medium (solid or fluid or gas). Thermal radiation is emitted by all objects at temperatures above absolute zero, due to random movements of atoms and molecules in matter. Since these atoms and molecules are composed of charged particles (protons and electrons), their movement results in the emission of electromagnetic radiation which carries away energy. Radiation is typically only important in engineering applications for very hot objects, or for objects with a large temperature difference.

Radiative heat transfer is an important consideration when: - Engineering applications for very hot objects - Engineering applications for objects with a large temperature difference

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### Instruction: From the passage provided, provide the two scenarios in bullet form where radiative heat transfer is an important consideration. ### Context: Radiative heat transfer is the transfer of energy via thermal radiation, i.e., electromagnetic waves. It occurs across vacuum or any transparent medium (solid or fluid or gas). Thermal radiation is emitted by all objects at temperatures above absolute zero, due to random movements of atoms and molecules in matter. Since these atoms and molecules are composed of charged particles (protons and electrons), their movement results in the emission of electromagnetic radiation which carries away energy. Radiation is typically only important in engineering applications for very hot objects, or for objects with a large temperature difference. ### Answer: Radiative heat transfer is an important consideration when: - Engineering applications for very hot objects - Engineering applications for objects with a large temperature difference

Where is Seinäjoki City Hall?

The Seinäjoki City Hall is the main municipal administrative building in the city of Seinäjoki, Finland. It is notable for having been designed by the renowned Finnish architect Alvar Aalto.

Seinäjoki City Hall, located in Seinäjoki, Finland is the city's main municipal administrative building. The building was designed by the renowned Finnish architect Alvar Aalto.

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### Instruction: Where is Seinäjoki City Hall? ### Context: The Seinäjoki City Hall is the main municipal administrative building in the city of Seinäjoki, Finland. It is notable for having been designed by the renowned Finnish architect Alvar Aalto. ### Answer: Seinäjoki City Hall, located in Seinäjoki, Finland is the city's main municipal administrative building. The building was designed by the renowned Finnish architect Alvar Aalto.

What are remarkable provinces in the Netherlands?

There are twelve provinces of the Netherlands (Dutch: provincies van Nederland), representing the administrative layer between the national government and the local municipalities, with responsibility for matters of subnational or regional importance. The most populous province is South Holland, with just over 3.7 million inhabitants as of January 2020, and also the most densely populated province with 1,374/km2 (3,559/sq mi). With 383,488 inhabitants, Zeeland has the smallest population. However Drenthe is the least densely populated province with 188/km2 (487/sq mi). In terms of area, Friesland is the largest province with a total area of 5,749 km2 (2,220 sq mi). If water is excluded, Gelderland is the largest province by land area at 4,964 km2 (1,916 sq mi). The province of Utrecht is the smallest with a total area of 1,560 km2 (602 sq mi), while Flevoland is the smallest by land area at 1,412 km2 (545 sq mi). In total about 10,000 people were employed by the provincial administrations in 2018.

- South Holland - Zeeland - Drenthe - Friesland - Gelderland - Utrecht - Flevoland

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### Instruction: What are remarkable provinces in the Netherlands? ### Context: There are twelve provinces of the Netherlands (Dutch: provincies van Nederland), representing the administrative layer between the national government and the local municipalities, with responsibility for matters of subnational or regional importance. The most populous province is South Holland, with just over 3.7 million inhabitants as of January 2020, and also the most densely populated province with 1,374/km2 (3,559/sq mi). With 383,488 inhabitants, Zeeland has the smallest population. However Drenthe is the least densely populated province with 188/km2 (487/sq mi). In terms of area, Friesland is the largest province with a total area of 5,749 km2 (2,220 sq mi). If water is excluded, Gelderland is the largest province by land area at 4,964 km2 (1,916 sq mi). The province of Utrecht is the smallest with a total area of 1,560 km2 (602 sq mi), while Flevoland is the smallest by land area at 1,412 km2 (545 sq mi). In total about 10,000 people were employed by the provincial administrations in 2018. ### Answer: - South Holland - Zeeland - Drenthe - Friesland - Gelderland - Utrecht - Flevoland

Extract the highest point in the city of Paris from this paragraph.

Paris is located in northern central France, in a north-bending arc of the river Seine whose crest includes two islands, the Île Saint-Louis and the larger Île de la Cité, which form the oldest part of the city. The river's mouth on the English Channel (La Manche) is about 233 mi (375 km) downstream from the city. The city is spread widely on both banks of the river. Overall, the city is relatively flat, and the lowest point is 35 m (115 ft) above sea level. Paris has several prominent hills, the highest of which is Montmartre at 130 m (427 ft).

The highest points is Montmartre at 130m or 427ft.

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### Instruction: Extract the highest point in the city of Paris from this paragraph. ### Context: Paris is located in northern central France, in a north-bending arc of the river Seine whose crest includes two islands, the Île Saint-Louis and the larger Île de la Cité, which form the oldest part of the city. The river's mouth on the English Channel (La Manche) is about 233 mi (375 km) downstream from the city. The city is spread widely on both banks of the river. Overall, the city is relatively flat, and the lowest point is 35 m (115 ft) above sea level. Paris has several prominent hills, the highest of which is Montmartre at 130 m (427 ft). ### Answer: The highest points is Montmartre at 130m or 427ft.

What is a multiverse?

Some physicists say the multiverse is not a legitimate topic of scientific inquiry. Concerns have been raised about whether attempts to exempt the multiverse from experimental verification could erode public confidence in science and ultimately damage the study of fundamental physics. Some have argued that the multiverse is a philosophical notion rather than a scientific hypothesis because it cannot be empirically falsified. The ability to disprove a theory by means of scientific experiment is a critical criterion of the accepted scientific method. Paul Steinhardt has famously argued that no experiment can rule out a theory if the theory provides for all possible outcomes.

While there is nothing scientific around the term multiverse, the term has been popularized by science fiction, and conveys the idea that there are many iterations of universes that are tied together, but each in it's own way unique

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### Instruction: What is a multiverse? ### Context: Some physicists say the multiverse is not a legitimate topic of scientific inquiry. Concerns have been raised about whether attempts to exempt the multiverse from experimental verification could erode public confidence in science and ultimately damage the study of fundamental physics. Some have argued that the multiverse is a philosophical notion rather than a scientific hypothesis because it cannot be empirically falsified. The ability to disprove a theory by means of scientific experiment is a critical criterion of the accepted scientific method. Paul Steinhardt has famously argued that no experiment can rule out a theory if the theory provides for all possible outcomes. ### Answer: While there is nothing scientific around the term multiverse, the term has been popularized by science fiction, and conveys the idea that there are many iterations of universes that are tied together, but each in it's own way unique

What are the different types of stances in tennis?

Stance refers to the way a player prepares themselves in order to best be able to return a shot. Essentially, it enables them to move quickly in order to achieve a particular stroke. There are four main stances in modern tennis: open, semi-open, closed, and neutral. All four stances involve the player crouching in some manner: as well as being a more efficient striking posture, it allows them to isometrically preload their muscles in order to play the stroke more dynamically. What stance is selected is strongly influenced by shot selection. A player may quickly alter their stance depending on the circumstances and the type of shot they intend to play. Any given stance also alters dramatically based upon the actual playing of the shot with dynamic movements and shifts of body weight occurring.

There are four main stances in tennis. These are; open, semi-open, closed and neutral. While open stance is the most common stance, closed stance is least common one.

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### Instruction: What are the different types of stances in tennis? ### Context: Stance refers to the way a player prepares themselves in order to best be able to return a shot. Essentially, it enables them to move quickly in order to achieve a particular stroke. There are four main stances in modern tennis: open, semi-open, closed, and neutral. All four stances involve the player crouching in some manner: as well as being a more efficient striking posture, it allows them to isometrically preload their muscles in order to play the stroke more dynamically. What stance is selected is strongly influenced by shot selection. A player may quickly alter their stance depending on the circumstances and the type of shot they intend to play. Any given stance also alters dramatically based upon the actual playing of the shot with dynamic movements and shifts of body weight occurring. ### Answer: There are four main stances in tennis. These are; open, semi-open, closed and neutral. While open stance is the most common stance, closed stance is least common one.

List the Pixar movies that were nominated for Academy Awards but did not win.

Pixar has produced 26 feature films, starting with Toy Story (1995), which is the first fully computer-animated feature film; its most recent film was Lightyear (2022). The studio has also produced many short films. As of July 2019, its feature films have earned approximately $14 billion at the worldwide box office, with an average worldwide gross of $680 million per film. Toy Story 3 (2010), Finding Dory (2016), Incredibles 2 (2018), and Toy Story 4 (2019) are all among the 50 highest-grossing films of all time. Incredibles 2 is the studio's highest grossing film as well as the fourth-highest-grossing animated film of all time, with a gross of $1.2 billion; the other three also grossed over $1 billion. Moreover, 15 of Pixar's films are in the 50 highest-grossing animated films of all time. Pixar has earned 23 Academy Awards, 10 Golden Globe Awards, and 11 Grammy Awards, along with numerous other awards and acknowledgments. Its films are frequently nominated for the Academy Award for Best Animated Feature, since its inauguration in 2001, with eleven winners being Finding Nemo (2003), The Incredibles (2004), Ratatouille (2007), WALL-E (2008), Up (2009), Toy Story 3 (2010), Brave (2012), Inside Out (2015), Coco (2017), Toy Story 4 (2019), and Soul (2020). The six nominated films that did not win are Monsters, Inc. (2001), Cars (2006), Incredibles 2 (2018), Onward (2020), Luca (2021) and Turning Red (2022). While Cars 2 (2011), Monsters University (2013), The Good Dinosaur (2015), Finding Dory (2016), Cars 3 (2017) and the aforementioned Lightyear were not nominated. In addition, Toy Story 3 and Up were nominated for the Academy Award for Best Picture. On February 10, 2009, Pixar executives John Lasseter, Brad Bird, Pete Docter, Andrew Stanton, and Lee Unkrich were presented with the Golden Lion award for Lifetime Achievement by the Venice Film Festival. The physical award was ceremoniously handed to Lucasfilm's founder, George Lucas.

Monsters, Inc. (2001), Cars (2006), Incredibles 2 (2018), Onward (2020), Luca (2021), Turning Red (2022)

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### Instruction: List the Pixar movies that were nominated for Academy Awards but did not win. ### Context: Pixar has produced 26 feature films, starting with Toy Story (1995), which is the first fully computer-animated feature film; its most recent film was Lightyear (2022). The studio has also produced many short films. As of July 2019, its feature films have earned approximately $14 billion at the worldwide box office, with an average worldwide gross of $680 million per film. Toy Story 3 (2010), Finding Dory (2016), Incredibles 2 (2018), and Toy Story 4 (2019) are all among the 50 highest-grossing films of all time. Incredibles 2 is the studio's highest grossing film as well as the fourth-highest-grossing animated film of all time, with a gross of $1.2 billion; the other three also grossed over $1 billion. Moreover, 15 of Pixar's films are in the 50 highest-grossing animated films of all time. Pixar has earned 23 Academy Awards, 10 Golden Globe Awards, and 11 Grammy Awards, along with numerous other awards and acknowledgments. Its films are frequently nominated for the Academy Award for Best Animated Feature, since its inauguration in 2001, with eleven winners being Finding Nemo (2003), The Incredibles (2004), Ratatouille (2007), WALL-E (2008), Up (2009), Toy Story 3 (2010), Brave (2012), Inside Out (2015), Coco (2017), Toy Story 4 (2019), and Soul (2020). The six nominated films that did not win are Monsters, Inc. (2001), Cars (2006), Incredibles 2 (2018), Onward (2020), Luca (2021) and Turning Red (2022). While Cars 2 (2011), Monsters University (2013), The Good Dinosaur (2015), Finding Dory (2016), Cars 3 (2017) and the aforementioned Lightyear were not nominated. In addition, Toy Story 3 and Up were nominated for the Academy Award for Best Picture. On February 10, 2009, Pixar executives John Lasseter, Brad Bird, Pete Docter, Andrew Stanton, and Lee Unkrich were presented with the Golden Lion award for Lifetime Achievement by the Venice Film Festival. The physical award was ceremoniously handed to Lucasfilm's founder, George Lucas. ### Answer: Monsters, Inc. (2001), Cars (2006), Incredibles 2 (2018), Onward (2020), Luca (2021), Turning Red (2022)

Extract the awards that Ian McEwan has won and list them in chronological order (oldest to most recent) using bullets, with associated dates in parentheses.

Ian Russell McEwan, CBE, FRSA, FRSL (born 21 June 1948) is an English novelist and screenwriter. In 2008, The Times featured him on its list of "The 50 greatest British writers since 1945" and The Daily Telegraph ranked him number 19 in its list of the "100 most powerful people in British culture". McEwan began his career writing sparse, Gothic short stories. His first two novels, The Cement Garden (1978) and The Comfort of Strangers (1981), earned him the nickname "Ian Macabre". These were followed by three novels of some success in the 1980s and early 1990s. His novel Enduring Love was adapted into a film of the same name. He won the Booker Prize with Amsterdam (1998). His next novel, Atonement, garnered acclaim and was adapted into an Oscar-winning film featuring Keira Knightley and James McAvoy. His later novels have included The Children Act, Nutshell, and Machines Like Me. He was awarded the 1999 Shakespeare Prize, and the 2011 Jerusalem Prize.

-Booker Prize (1998) -Shakespeare Prize (1999) -Jerusalem Prize (2011)

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### Instruction: Extract the awards that Ian McEwan has won and list them in chronological order (oldest to most recent) using bullets, with associated dates in parentheses. ### Context: Ian Russell McEwan, CBE, FRSA, FRSL (born 21 June 1948) is an English novelist and screenwriter. In 2008, The Times featured him on its list of "The 50 greatest British writers since 1945" and The Daily Telegraph ranked him number 19 in its list of the "100 most powerful people in British culture". McEwan began his career writing sparse, Gothic short stories. His first two novels, The Cement Garden (1978) and The Comfort of Strangers (1981), earned him the nickname "Ian Macabre". These were followed by three novels of some success in the 1980s and early 1990s. His novel Enduring Love was adapted into a film of the same name. He won the Booker Prize with Amsterdam (1998). His next novel, Atonement, garnered acclaim and was adapted into an Oscar-winning film featuring Keira Knightley and James McAvoy. His later novels have included The Children Act, Nutshell, and Machines Like Me. He was awarded the 1999 Shakespeare Prize, and the 2011 Jerusalem Prize. ### Answer: -Booker Prize (1998) -Shakespeare Prize (1999) -Jerusalem Prize (2011)

Extract the foreign nationalities living in the city of Lugo, Spain, and list them using bullets in the format {Nationality} - {Percentage} separated by a comma.

Lugo (Galician pronunciation: [ˈluɣʊ], Spanish pronunciation: [ˈluɣo]; Latin: Lucus Augusti) is a city in northwestern Spain in the autonomous community of Galicia. It is the capital of the province of Lugo. The municipality had a population of 98,025 in 2018, making it the fourth most populous city in Galicia. The population of the city in 2018 was 98,026 inhabitants, which has been growing constantly since the first census in 1842, despite the fact that the rest of the province is losing population dramatically. The population of the city in 2014 was 98,560 inhabitants (45,948 men and 52,612 women). From INE (Instituto Nacional de Estadística). By April 2020, the population had grown to 99,638. Reaching 100,000 inhabitants is one of the goals of the city Mayor, Lara Méndez. In 2010 there were 5,373 foreigners living in the city, representing 5.5% of the total population. The main nationalities are Colombians (18%), Moroccans (12%) and Brazilians (11%).

{Colombians} - {18%}, {Moroccans} - {12%}, {Brazilians} - {12%}

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### Instruction: Extract the foreign nationalities living in the city of Lugo, Spain, and list them using bullets in the format {Nationality} - {Percentage} separated by a comma. ### Context: Lugo (Galician pronunciation: [ˈluɣʊ], Spanish pronunciation: [ˈluɣo]; Latin: Lucus Augusti) is a city in northwestern Spain in the autonomous community of Galicia. It is the capital of the province of Lugo. The municipality had a population of 98,025 in 2018, making it the fourth most populous city in Galicia. The population of the city in 2018 was 98,026 inhabitants, which has been growing constantly since the first census in 1842, despite the fact that the rest of the province is losing population dramatically. The population of the city in 2014 was 98,560 inhabitants (45,948 men and 52,612 women). From INE (Instituto Nacional de Estadística). By April 2020, the population had grown to 99,638. Reaching 100,000 inhabitants is one of the goals of the city Mayor, Lara Méndez. In 2010 there were 5,373 foreigners living in the city, representing 5.5% of the total population. The main nationalities are Colombians (18%), Moroccans (12%) and Brazilians (11%). ### Answer: {Colombians} - {18%}, {Moroccans} - {12%}, {Brazilians} - {12%}

What does the Horse Statue in Ground Zero Represent?

America's Response Monument, subtitled De Oppresso Liber, is a life-and-a-half scale bronze statue in Liberty Park overlooking the National September 11 Memorial & Museum in New York City. Unofficially known as the Horse Soldier Statue, it is the first publicly accessible monument dedicated to the United States Special Forces. It was also the first monument near Ground Zero to recognize heroes of the September 11 terrorist attacks. The statue was conceived by sculptor Douwe Blumberg and first sold in 2003 as a small-scale, 18 inches (460 mm) version. In April 2011, an anonymous group of Wall Street bankers who lost friends in the 9/11 attacks commissioned a large, 16 feet (4.9 m) tall version. It was dedicated on Veterans Day, November 11, 2011, in a ceremony led by Vice President Joe Biden and Lt. Gen. John Mulholland, commander of Task Force Dagger and U.S. Army Special Operations Command during Operation Enduring Freedom. The statue commemorates the service members of America's Special Operations forces and their response to 9/11, including those who fought during the first stages of the Afghanistan war. This operation led to the initial defeat of the Taliban in Afghanistan, although the Taliban would ultimately be victorious following their 20-year-long war with the United States.

America's Response Monument, De Oppresso Liber, commemorates the service members of America's Special Operations forces and their response to 9/11, including those who fought during the first stages of the Afghanistan war.

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### Instruction: What does the Horse Statue in Ground Zero Represent? ### Context: America's Response Monument, subtitled De Oppresso Liber, is a life-and-a-half scale bronze statue in Liberty Park overlooking the National September 11 Memorial & Museum in New York City. Unofficially known as the Horse Soldier Statue, it is the first publicly accessible monument dedicated to the United States Special Forces. It was also the first monument near Ground Zero to recognize heroes of the September 11 terrorist attacks. The statue was conceived by sculptor Douwe Blumberg and first sold in 2003 as a small-scale, 18 inches (460 mm) version. In April 2011, an anonymous group of Wall Street bankers who lost friends in the 9/11 attacks commissioned a large, 16 feet (4.9 m) tall version. It was dedicated on Veterans Day, November 11, 2011, in a ceremony led by Vice President Joe Biden and Lt. Gen. John Mulholland, commander of Task Force Dagger and U.S. Army Special Operations Command during Operation Enduring Freedom. The statue commemorates the service members of America's Special Operations forces and their response to 9/11, including those who fought during the first stages of the Afghanistan war. This operation led to the initial defeat of the Taliban in Afghanistan, although the Taliban would ultimately be victorious following their 20-year-long war with the United States. ### Answer: America's Response Monument, De Oppresso Liber, commemorates the service members of America's Special Operations forces and their response to 9/11, including those who fought during the first stages of the Afghanistan war.

Extract the habitants for the Paris Region.

The City of Paris is the centre of the Île-de-France region, or Paris Region, with an official estimated population of 12.271.794 habitants on January 1, 2023, or about 19% of the population of France, making the region France's primate city. The Paris Region had a GDP of €739 billion ($743 billion) in 2019, the highest in Europe. According to the Economist Intelligence Unit Worldwide Cost of Living Survey, in 2022, Paris was the city with the ninth-highest cost of living in the world.

The Paris region has 12,271,794 habitants.

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### Instruction: Extract the habitants for the Paris Region. ### Context: The City of Paris is the centre of the Île-de-France region, or Paris Region, with an official estimated population of 12.271.794 habitants on January 1, 2023, or about 19% of the population of France, making the region France's primate city. The Paris Region had a GDP of €739 billion ($743 billion) in 2019, the highest in Europe. According to the Economist Intelligence Unit Worldwide Cost of Living Survey, in 2022, Paris was the city with the ninth-highest cost of living in the world. ### Answer: The Paris region has 12,271,794 habitants.

Who is Germain Damar?

Germaine Damar (born August 31, 1929) is a Luxembourger actress and dancer. Sometimes she used the stage name Ria Poncelet. She started her career as an acrobat and played in nearly 30 German films, including three films in which she was the partner of Peter Alexander. In 1964, Damar retired and two years later her son Roman Martin Toporow was born. Her husband died in 1993, and Damar has since then lived with her son in Fort Lauderdale, Florida. In June 2011 the documentary Germaine Damar – Der tanzende Stern (Germaine Damar, the dancing star) by Michael Wenk was presented at the Luxembourg cinema Ciné Utopia. The former dancing star herself was present and even sang one of her old songs. The audience gave her a standing ovation.

Germaine Damar was born on August 31, 1929 and is a Luxembourger actress and dancer. She's been in nearly 30 German films and started her career as an acrobat. In 1964, she retired from the film industry.

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### Instruction: Who is Germain Damar? ### Context: Germaine Damar (born August 31, 1929) is a Luxembourger actress and dancer. Sometimes she used the stage name Ria Poncelet. She started her career as an acrobat and played in nearly 30 German films, including three films in which she was the partner of Peter Alexander. In 1964, Damar retired and two years later her son Roman Martin Toporow was born. Her husband died in 1993, and Damar has since then lived with her son in Fort Lauderdale, Florida. In June 2011 the documentary Germaine Damar – Der tanzende Stern (Germaine Damar, the dancing star) by Michael Wenk was presented at the Luxembourg cinema Ciné Utopia. The former dancing star herself was present and even sang one of her old songs. The audience gave her a standing ovation. ### Answer: Germaine Damar was born on August 31, 1929 and is a Luxembourger actress and dancer. She's been in nearly 30 German films and started her career as an acrobat. In 1964, she retired from the film industry.

From the passage, what awards did Shirley L. Fulton receive? List the awards using bullets with the year in which the award was given, in the form {year}: {award}

Shirley L. Fulton (January 2, 1952 – February 8, 2023) was an American judge and prosecutor. She was the first African American woman to serve as a judge in the Superior Court of North Carolina, a position she held for 14 years. Earlier in her career, she had served as the first black female prosecutor in Mecklenburg County, North Carolina. In 2009, Fulton was the recipient of a Citizen Lawyer Award from the North Carolina Bar Association. In 2010, Fulton received the Order of the Long Leaf Pine in recognition of her service to North Carolina. In 2014, Fulton was presented with the Chief Justice's Professionalism Award, "for her selfless dedication and commitment to the principles of professionalism and public service in North Carolina". In 2018, Fulton was inducted as a Legal Legend of Color by the NCBA Minorities in the Profession Committee. Other accolades included the Dr. Martin Luther King Jr. Medallion, awarded by the Charlotte Community Relations Committee.

* 2009: Citizen Lawyer Award * 2010: Order of the Long Leaf Pine * 2014: Chief Justice's Professionalism Award * 2018: Legal Legend of Color Another award that I for which I do not have a year is the Dr. Martin Luther King Jr. Medallion award.

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### Instruction: From the passage, what awards did Shirley L. Fulton receive? List the awards using bullets with the year in which the award was given, in the form {year}: {award} ### Context: Shirley L. Fulton (January 2, 1952 – February 8, 2023) was an American judge and prosecutor. She was the first African American woman to serve as a judge in the Superior Court of North Carolina, a position she held for 14 years. Earlier in her career, she had served as the first black female prosecutor in Mecklenburg County, North Carolina. In 2009, Fulton was the recipient of a Citizen Lawyer Award from the North Carolina Bar Association. In 2010, Fulton received the Order of the Long Leaf Pine in recognition of her service to North Carolina. In 2014, Fulton was presented with the Chief Justice's Professionalism Award, "for her selfless dedication and commitment to the principles of professionalism and public service in North Carolina". In 2018, Fulton was inducted as a Legal Legend of Color by the NCBA Minorities in the Profession Committee. Other accolades included the Dr. Martin Luther King Jr. Medallion, awarded by the Charlotte Community Relations Committee. ### Answer: * 2009: Citizen Lawyer Award * 2010: Order of the Long Leaf Pine * 2014: Chief Justice's Professionalism Award * 2018: Legal Legend of Color Another award that I for which I do not have a year is the Dr. Martin Luther King Jr. Medallion award.

Who is Phil Murphy?

Philip Dunton Murphy (born August 16, 1957) is an American financier, diplomat, and politician serving as the 56th governor of New Jersey since January 2018. A member of the Democratic Party, he served as the United States ambassador to Germany from 2009 to 2013 under President Barack Obama.

Philip Dunton Murphy (born August 16, 1957) is an American financier, diplomat, and politician serving as the 56th governor of New Jersey since January 2018. A member of the Democratic Party, he served as the United States ambassador to Germany from 2009 to 2013 under President Barack Obama. Murphy had a 23-year career at Goldman Sachs, where he held several high-level positions and accumulated considerable wealth before retiring in 2006. He is involved in many civic organizations and philanthropic pursuits. He served as finance chairman for the Democratic National Committee in the mid-late 2000s under Howard Dean. In the Obama administration, Murphy served as the United States ambassador to Germany from 2009 to 2013, during which time he dealt with the international fallout from the United States diplomatic cables leak. While planning to run for governor, Murphy and his wife Tammy Murphy launched New Start New Jersey, a progressive organization active from November 2014 to December 2017, intended to increase his political visibility in the state. He defeated then-Lieutenant Governor Kim Guadagno in the 2017 gubernatorial election with 56% of the vote. In December 2019, Murphy became the chairperson of the Democratic Governors Association, a position he held for a year. He was reelected in 2021, defeating Republican nominee Jack Ciattarelli with 51.2% of the vote, becoming the first Democratic governor of New Jersey to win a second term since Brendan Byrne in 1977. In July 2022, Murphy became the first National Governors Association chair from New Jersey.

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### Instruction: Who is Phil Murphy? ### Context: Philip Dunton Murphy (born August 16, 1957) is an American financier, diplomat, and politician serving as the 56th governor of New Jersey since January 2018. A member of the Democratic Party, he served as the United States ambassador to Germany from 2009 to 2013 under President Barack Obama. ### Answer: Philip Dunton Murphy (born August 16, 1957) is an American financier, diplomat, and politician serving as the 56th governor of New Jersey since January 2018. A member of the Democratic Party, he served as the United States ambassador to Germany from 2009 to 2013 under President Barack Obama. Murphy had a 23-year career at Goldman Sachs, where he held several high-level positions and accumulated considerable wealth before retiring in 2006. He is involved in many civic organizations and philanthropic pursuits. He served as finance chairman for the Democratic National Committee in the mid-late 2000s under Howard Dean. In the Obama administration, Murphy served as the United States ambassador to Germany from 2009 to 2013, during which time he dealt with the international fallout from the United States diplomatic cables leak. While planning to run for governor, Murphy and his wife Tammy Murphy launched New Start New Jersey, a progressive organization active from November 2014 to December 2017, intended to increase his political visibility in the state. He defeated then-Lieutenant Governor Kim Guadagno in the 2017 gubernatorial election with 56% of the vote. In December 2019, Murphy became the chairperson of the Democratic Governors Association, a position he held for a year. He was reelected in 2021, defeating Republican nominee Jack Ciattarelli with 51.2% of the vote, becoming the first Democratic governor of New Jersey to win a second term since Brendan Byrne in 1977. In July 2022, Murphy became the first National Governors Association chair from New Jersey.

Who are the people named in the passage?

Lauri Johannes Silván (born 13 March 1932) is a Finnish ice hockey player. He competed in the men's tournament at the 1952 Winter Olympics.

Lauri Johannes Silván

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### Instruction: Who are the people named in the passage? ### Context: Lauri Johannes Silván (born 13 March 1932) is a Finnish ice hockey player. He competed in the men's tournament at the 1952 Winter Olympics. ### Answer: Lauri Johannes Silván

Based on the autopsy, list the contributing factors to Farley's death in bullet format.

On December 18, 1997, Farley was found dead by his younger brother John in his apartment in the John Hancock Center in Chicago. He was 33 years old. An autopsy revealed that Farley had died of an overdose of a combination of cocaine and morphine, commonly known as a "speedball". Advanced atherosclerosis was cited as a "significant contributing factor." A private funeral was held for Farley on December 23, 1997, at Our Lady Queen of Peace Catholic Church in his hometown of Madison, Wisconsin. Over 500 people attended his funeral, including many comedians who had worked with him on Saturday Night Live and on film, such as Dan Aykroyd, Adam Sandler, Chris Rock, Rob Schneider, Lorne Michaels, Al Franken, John Goodman, Bob Odenkirk, Tim Meadows, Robert Smigel, George Wendt and Phil Hartman. Notably absent was Farley's best friend David Spade. Spade's non-appearance fueled speculation that there was some falling out with Farley prior to his death. However, years later Spade denied any ill will between him and his comedic partner, admitting that his absence from the funeral was because he would have found it too emotionally difficult. Farley's remains were interred at Resurrection Cemetery in Madison.

-Overdose from a speedball -Advanced atherosclerosis

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### Instruction: Based on the autopsy, list the contributing factors to Farley's death in bullet format. ### Context: On December 18, 1997, Farley was found dead by his younger brother John in his apartment in the John Hancock Center in Chicago. He was 33 years old. An autopsy revealed that Farley had died of an overdose of a combination of cocaine and morphine, commonly known as a "speedball". Advanced atherosclerosis was cited as a "significant contributing factor." A private funeral was held for Farley on December 23, 1997, at Our Lady Queen of Peace Catholic Church in his hometown of Madison, Wisconsin. Over 500 people attended his funeral, including many comedians who had worked with him on Saturday Night Live and on film, such as Dan Aykroyd, Adam Sandler, Chris Rock, Rob Schneider, Lorne Michaels, Al Franken, John Goodman, Bob Odenkirk, Tim Meadows, Robert Smigel, George Wendt and Phil Hartman. Notably absent was Farley's best friend David Spade. Spade's non-appearance fueled speculation that there was some falling out with Farley prior to his death. However, years later Spade denied any ill will between him and his comedic partner, admitting that his absence from the funeral was because he would have found it too emotionally difficult. Farley's remains were interred at Resurrection Cemetery in Madison. ### Answer: -Overdose from a speedball -Advanced atherosclerosis

Extract the names of the groups of islands located on the Azores plateau from the text. Separate them with a comma.

These islands can be divided into three recognizable groups located on the Azores Plateau: The Eastern Group (Grupo Oriental) of São Miguel, Santa Maria and Formigas Islets The Central Group (Grupo Central) of Terceira, Graciosa, São Jorge, Pico and Faial The Western Group (Grupo Ocidental) of Flores and Corvo.

Eastern Group, Central Group, Western Group

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### Instruction: Extract the names of the groups of islands located on the Azores plateau from the text. Separate them with a comma. ### Context: These islands can be divided into three recognizable groups located on the Azores Plateau: The Eastern Group (Grupo Oriental) of São Miguel, Santa Maria and Formigas Islets The Central Group (Grupo Central) of Terceira, Graciosa, São Jorge, Pico and Faial The Western Group (Grupo Ocidental) of Flores and Corvo. ### Answer: Eastern Group, Central Group, Western Group

Extract 3 areas based on the following passage where electronics is widely used.

Electronics deals with electrical circuits that involve active electrical components such as vacuum tubes, transistors, diodes, sensors and integrated circuits, and associated passive interconnection technologies. The nonlinear behaviour of active components and their ability to control electron flows makes digital switching possible, and electronics is widely used in information processing, telecommunications, and signal processing. Interconnection technologies such as circuit boards, electronics packaging technology, and other varied forms of communication infrastructure complete circuit functionality and transform the mixed components into a regular working system. Today, most electronic devices use semiconductor components to perform electron control. The underlying principles that explain how semiconductors work are studied in solid state physics, whereas the design and construction of electronic circuits to solve practical problems are part of electronics engineering.

Electronics is widely used in 1. information processing, 2. telecommunications, and 3. signal processing.

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### Instruction: Extract 3 areas based on the following passage where electronics is widely used. ### Context: Electronics deals with electrical circuits that involve active electrical components such as vacuum tubes, transistors, diodes, sensors and integrated circuits, and associated passive interconnection technologies. The nonlinear behaviour of active components and their ability to control electron flows makes digital switching possible, and electronics is widely used in information processing, telecommunications, and signal processing. Interconnection technologies such as circuit boards, electronics packaging technology, and other varied forms of communication infrastructure complete circuit functionality and transform the mixed components into a regular working system. Today, most electronic devices use semiconductor components to perform electron control. The underlying principles that explain how semiconductors work are studied in solid state physics, whereas the design and construction of electronic circuits to solve practical problems are part of electronics engineering. ### Answer: Electronics is widely used in 1. information processing, 2. telecommunications, and 3. signal processing.

What is Elzéar Abeille de Perrin known for?

Elzéar Emmanuel Arène Abeille de Perrin (3 January 1843, Marseille – 9 October 1910, Marseille) was a French entomologist. Abeille de Perrin was a lawyer in Marseille. He gave all his free time to entomology and was a member of the Société entomologique de France for twenty years. He was especially interested in the cave species of the Pyrenees. His best known publications are Monographie des malachites (1869), Études sur les coléoptères cavernicoles, suivies de la description de 27 coléoptères nouveaux français (1872), Notes sur les leptodirites (1878), and Synopsis critique et synonymique des chrysides de France (1878). His collection of Palearctic, Coleoptera, Hymenoptera, Diptera, and Orthoptera is conserved in Muséum national d'histoire naturelle in Paris.

Elzéar Abeille de Perrin is best known as a French entomologist. He specialized in studying cave species in the Pyrenees. His best known publications are Monographie des malachites (1869), Études sur les coléoptères cavernicoles, suivies de la description de 27 coléoptères nouveaux français (1872), Notes sur les leptodirites (1878), and Synopsis critique et synonymique des chrysides de France (1878).

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### Instruction: What is Elzéar Abeille de Perrin known for? ### Context: Elzéar Emmanuel Arène Abeille de Perrin (3 January 1843, Marseille – 9 October 1910, Marseille) was a French entomologist. Abeille de Perrin was a lawyer in Marseille. He gave all his free time to entomology and was a member of the Société entomologique de France for twenty years. He was especially interested in the cave species of the Pyrenees. His best known publications are Monographie des malachites (1869), Études sur les coléoptères cavernicoles, suivies de la description de 27 coléoptères nouveaux français (1872), Notes sur les leptodirites (1878), and Synopsis critique et synonymique des chrysides de France (1878). His collection of Palearctic, Coleoptera, Hymenoptera, Diptera, and Orthoptera is conserved in Muséum national d'histoire naturelle in Paris. ### Answer: Elzéar Abeille de Perrin is best known as a French entomologist. He specialized in studying cave species in the Pyrenees. His best known publications are Monographie des malachites (1869), Études sur les coléoptères cavernicoles, suivies de la description de 27 coléoptères nouveaux français (1872), Notes sur les leptodirites (1878), and Synopsis critique et synonymique des chrysides de France (1878).

Extract the architectural details with respect to the Our Lady of the Rosary Cathedral in Colombia. Separate key items with a new line that begins with a hyphen.

The Our Lady of the Rosary Cathedral (Spanish: Catedral de Nuestra Señora del Rosario) Also Girardota Cathedral is a cathedral of the Catholic church under the invocation of the Virgin of the Rosary. It is a Neo-Romanesque style building, built in solid brick in sight, took 32 years to build and was designed by the French architect Charles Émile Carré (1863-1909), better known as Carlos Carré. The cathedral is located on the eastern side of the main park of the municipality of Girardota, north of the Aburrá Valley, (Antioquia) in the South American country of Colombia. At first, the building began as a parochial church and in 1988 was elevated to the rank of cathedral, when Pope John Paul II by the Bull "Qui Peculiari" created the Diocese of Girardota establishing this municipality as the head of the new bishopric. In addition, the cathedral is one of the main pilgrimage sites of the Valley of Aburrá, inside it is the image of the Fallen Lord of Girardota. He is credited with "hundreds of miracles" and pilgrims travel there to keep their promises.

The Our Lady of the Rosary Cathedral is an architectural wonder. Here are a few reasons why: - It was designed by Charles Émile Carré, born in 1863 and passed away in 1909. - Its architectural style is Neo-Romanesque. - It took over 32 years to build. - It's built of solid brick.

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### Instruction: Extract the architectural details with respect to the Our Lady of the Rosary Cathedral in Colombia. Separate key items with a new line that begins with a hyphen. ### Context: The Our Lady of the Rosary Cathedral (Spanish: Catedral de Nuestra Señora del Rosario) Also Girardota Cathedral is a cathedral of the Catholic church under the invocation of the Virgin of the Rosary. It is a Neo-Romanesque style building, built in solid brick in sight, took 32 years to build and was designed by the French architect Charles Émile Carré (1863-1909), better known as Carlos Carré. The cathedral is located on the eastern side of the main park of the municipality of Girardota, north of the Aburrá Valley, (Antioquia) in the South American country of Colombia. At first, the building began as a parochial church and in 1988 was elevated to the rank of cathedral, when Pope John Paul II by the Bull "Qui Peculiari" created the Diocese of Girardota establishing this municipality as the head of the new bishopric. In addition, the cathedral is one of the main pilgrimage sites of the Valley of Aburrá, inside it is the image of the Fallen Lord of Girardota. He is credited with "hundreds of miracles" and pilgrims travel there to keep their promises. ### Answer: The Our Lady of the Rosary Cathedral is an architectural wonder. Here are a few reasons why: - It was designed by Charles Émile Carré, born in 1863 and passed away in 1909. - Its architectural style is Neo-Romanesque. - It took over 32 years to build. - It's built of solid brick.

Who is George R.R. Martin?

George Raymond Richard Martin (born George Raymond Martin; September 20, 1948), also known as GRRM, is an American novelist, screenwriter, television producer and short story writer. He is the author of the series of epic fantasy novels A Song of Ice and Fire, which were adapted into the Emmy Award-winning HBO series Game of Thrones (2011–2019) and its prequel series House of the Dragon (2022–present). He also helped create the Wild Cards anthology series, and contributed worldbuilding for the 2022 video game Elden Ring.

George Raymond Richard Martin (born George Raymond Martin; September 20, 1948), also known as GRRM, is an American novelist, screenwriter, television producer and short story writer. He is the author of the series of epic fantasy novels A Song of Ice and Fire, which were adapted into the Emmy Award-winning HBO series Game of Thrones (2011–2019) and its prequel series House of the Dragon (2022–present). He also helped create the Wild Cards anthology series, and contributed worldbuilding for the 2022 video game Elden Ring. In 2005, Lev Grossman of Time called Martin "the American Tolkien", and in 2011, he was included on the annual Time 100 list of the most influential people in the world. He is a longtime citizen of Santa Fe, New Mexico, where he helped fund Meow Wolf and owns the Jean Cocteau Cinema. The city commemorates March 29 as George R. R. Martin Day.

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### Instruction: Who is George R.R. Martin? ### Context: George Raymond Richard Martin (born George Raymond Martin; September 20, 1948), also known as GRRM, is an American novelist, screenwriter, television producer and short story writer. He is the author of the series of epic fantasy novels A Song of Ice and Fire, which were adapted into the Emmy Award-winning HBO series Game of Thrones (2011–2019) and its prequel series House of the Dragon (2022–present). He also helped create the Wild Cards anthology series, and contributed worldbuilding for the 2022 video game Elden Ring. ### Answer: George Raymond Richard Martin (born George Raymond Martin; September 20, 1948), also known as GRRM, is an American novelist, screenwriter, television producer and short story writer. He is the author of the series of epic fantasy novels A Song of Ice and Fire, which were adapted into the Emmy Award-winning HBO series Game of Thrones (2011–2019) and its prequel series House of the Dragon (2022–present). He also helped create the Wild Cards anthology series, and contributed worldbuilding for the 2022 video game Elden Ring. In 2005, Lev Grossman of Time called Martin "the American Tolkien", and in 2011, he was included on the annual Time 100 list of the most influential people in the world. He is a longtime citizen of Santa Fe, New Mexico, where he helped fund Meow Wolf and owns the Jean Cocteau Cinema. The city commemorates March 29 as George R. R. Martin Day.

Fix the typos and grammar in this paragraph

"Let's Go" is a song by Canadian singer Shawn Desman. It was released in 2005 as the second single from his album Back for More. The songs heavily features a synthesizer phrase sampled from teh 1982 hits "Don't Go" by British new wave du Yazoo.

"Let's Go" is a song by Canadian singer Shawn Desman. It was released in 2005 as the second single from his album Back for More. The song heavily features a synthesizer phrase sampled from the 1982 hit "Don't Go" by British new wave duo Yazoo.

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### Instruction: Fix the typos and grammar in this paragraph ### Context: "Let's Go" is a song by Canadian singer Shawn Desman. It was released in 2005 as the second single from his album Back for More. The songs heavily features a synthesizer phrase sampled from teh 1982 hits "Don't Go" by British new wave du Yazoo. ### Answer: "Let's Go" is a song by Canadian singer Shawn Desman. It was released in 2005 as the second single from his album Back for More. The song heavily features a synthesizer phrase sampled from the 1982 hit "Don't Go" by British new wave duo Yazoo.

What are the major industries in Seattle today?

Logging was Seattle's first major industry, but by the late 19th century, the city had become a commercial and shipbuilding center as a gateway to Alaska during the Klondike Gold Rush. Growth after World War II was partially due to the local Boeing company, which established Seattle as a center for aircraft manufacturing. The Seattle area developed into a technology center from the 1980s onwards with companies like Microsoft becoming established in the region; Microsoft founder Bill Gates is a Seattleite by birth. Internet retailer Amazon was founded in Seattle in 1994, and major airline Alaska Airlines is based in SeaTac, Washington, serving Seattle's international airport, Seattle–Tacoma International Airport. The stream of new software, biotechnology, and Internet companies led to an economic revival, which increased the city's population by almost 50,000 between 1990 and 2000.

In the late 20th and early 21st century, the largest industries in Seattle were software, aviation, and biotechnology. Significant companies are Boeing, Microsoft, Alaska Airlines, and Amazon.

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### Instruction: What are the major industries in Seattle today? ### Context: Logging was Seattle's first major industry, but by the late 19th century, the city had become a commercial and shipbuilding center as a gateway to Alaska during the Klondike Gold Rush. Growth after World War II was partially due to the local Boeing company, which established Seattle as a center for aircraft manufacturing. The Seattle area developed into a technology center from the 1980s onwards with companies like Microsoft becoming established in the region; Microsoft founder Bill Gates is a Seattleite by birth. Internet retailer Amazon was founded in Seattle in 1994, and major airline Alaska Airlines is based in SeaTac, Washington, serving Seattle's international airport, Seattle–Tacoma International Airport. The stream of new software, biotechnology, and Internet companies led to an economic revival, which increased the city's population by almost 50,000 between 1990 and 2000. ### Answer: In the late 20th and early 21st century, the largest industries in Seattle were software, aviation, and biotechnology. Significant companies are Boeing, Microsoft, Alaska Airlines, and Amazon.

Which was the first film to reach he billion-dollar mark?

Titanic is a 1997 American epic romance and disaster film directed, written, produced, and co-edited by James Cameron. Incorporating both historical and fictionalized aspects, it is based on accounts of the sinking of the RMS Titanic and stars Kate Winslet and Leonardo DiCaprio as members of different social classes who fall in love aboard the ship during its ill-fated maiden voyage. The film also features Billy Zane, Kathy Bates, Frances Fisher, Gloria Stuart, Bernard Hill, Jonathan Hyde, Victor Garber, and Bill Paxton. Cameron's inspiration for the film came from his fascination with shipwrecks; he felt a love story interspersed with the human loss would be essential to convey the emotional impact of the disaster. Production began on September 1, 1995, when Cameron shot footage of the actual Titanic wreck. The modern scenes on the research vessel were shot on board the Akademik Mstislav Keldysh, which Cameron had used as a base when filming the wreck. Scale models, computer-generated imagery, and a reconstruction of the Titanic built at Baja Studios were used to re-create the sinking. The film was co-financed by Paramount Pictures and 20th Century Fox; the former handled distribution in North America while the latter released the film internationally. It was the most expensive film ever made at the time, with a production budget of $200 million. Filming took place from July 1996 to March 1997. Upon its release on December 19, 1997, Titanic achieved significant critical and commercial success, and then received numerous accolades. It was praised for its visual effects, performances (particularly DiCaprio, Winslet, and Stuart), production values, Cameron's direction, musical score, cinematography, story, and emotional depth. Nominated for 14 Academy Awards, it tied All About Eve (1950) for the most Oscar nominations, and won 11, including the awards for Best Picture and Best Director, tying Ben-Hur (1959) for the most Oscars won by a single film. With an initial worldwide gross of over $1.84 billion, Titanic was the first film to reach the billion-dollar mark. It remained the highest-grossing film of all time until Cameron's next film, Avatar, surpassed it in 2010. A number of re-releases since 1997 have pushed the film's worldwide total to $2.249 billion, making it the second film to gross more than $2 billion worldwide (after Avatar). It was also selected for preservation in the United States National Film Registry in 2017 for being "culturally, historically or aesthetically significant".

With an initial worldwide gross of over $1.84 billion, Titanic was the first film to reach the billion-dollar mark. Upon its release on December 19, 1997, Titanic achieved significant critical and commercial success, and then received numerous accolades. It was praised for its visual effects, performances (particularly DiCaprio, Winslet, and Stuart), production values, Cameron's direction, musical score, cinematography, story, and emotional depth. It was nominated for 14 Academy Awards, and won 11, including the awards for Best Picture and Best Director.

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### Instruction: Which was the first film to reach he billion-dollar mark? ### Context: Titanic is a 1997 American epic romance and disaster film directed, written, produced, and co-edited by James Cameron. Incorporating both historical and fictionalized aspects, it is based on accounts of the sinking of the RMS Titanic and stars Kate Winslet and Leonardo DiCaprio as members of different social classes who fall in love aboard the ship during its ill-fated maiden voyage. The film also features Billy Zane, Kathy Bates, Frances Fisher, Gloria Stuart, Bernard Hill, Jonathan Hyde, Victor Garber, and Bill Paxton. Cameron's inspiration for the film came from his fascination with shipwrecks; he felt a love story interspersed with the human loss would be essential to convey the emotional impact of the disaster. Production began on September 1, 1995, when Cameron shot footage of the actual Titanic wreck. The modern scenes on the research vessel were shot on board the Akademik Mstislav Keldysh, which Cameron had used as a base when filming the wreck. Scale models, computer-generated imagery, and a reconstruction of the Titanic built at Baja Studios were used to re-create the sinking. The film was co-financed by Paramount Pictures and 20th Century Fox; the former handled distribution in North America while the latter released the film internationally. It was the most expensive film ever made at the time, with a production budget of $200 million. Filming took place from July 1996 to March 1997. Upon its release on December 19, 1997, Titanic achieved significant critical and commercial success, and then received numerous accolades. It was praised for its visual effects, performances (particularly DiCaprio, Winslet, and Stuart), production values, Cameron's direction, musical score, cinematography, story, and emotional depth. Nominated for 14 Academy Awards, it tied All About Eve (1950) for the most Oscar nominations, and won 11, including the awards for Best Picture and Best Director, tying Ben-Hur (1959) for the most Oscars won by a single film. With an initial worldwide gross of over $1.84 billion, Titanic was the first film to reach the billion-dollar mark. It remained the highest-grossing film of all time until Cameron's next film, Avatar, surpassed it in 2010. A number of re-releases since 1997 have pushed the film's worldwide total to $2.249 billion, making it the second film to gross more than $2 billion worldwide (after Avatar). It was also selected for preservation in the United States National Film Registry in 2017 for being "culturally, historically or aesthetically significant". ### Answer: With an initial worldwide gross of over $1.84 billion, Titanic was the first film to reach the billion-dollar mark. Upon its release on December 19, 1997, Titanic achieved significant critical and commercial success, and then received numerous accolades. It was praised for its visual effects, performances (particularly DiCaprio, Winslet, and Stuart), production values, Cameron's direction, musical score, cinematography, story, and emotional depth. It was nominated for 14 Academy Awards, and won 11, including the awards for Best Picture and Best Director.

Extract the names of the teams Alexandra Oquendo was a part of from the text. Separate them with a comma.

She was part of the Puerto Rico women's national volleyball team at the 2014 FIVB Volleyball Women's World Championship in Italy. She participated at the 2016 Olympic Games in Rio de Janeiro. Oquendo played for Leonas de Ponce in 2015 and Lancheras de Cataño for the 2016 Puerto Rican league season. When her club moved to Aibonito, she stayed with this club, then Polluelas de Aibonito.

Puerto Rico women's national volleyball, Leonas de Ponce, Lancheras de Cataño, Polluelas de Aibonito

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### Instruction: Extract the names of the teams Alexandra Oquendo was a part of from the text. Separate them with a comma. ### Context: She was part of the Puerto Rico women's national volleyball team at the 2014 FIVB Volleyball Women's World Championship in Italy. She participated at the 2016 Olympic Games in Rio de Janeiro. Oquendo played for Leonas de Ponce in 2015 and Lancheras de Cataño for the 2016 Puerto Rican league season. When her club moved to Aibonito, she stayed with this club, then Polluelas de Aibonito. ### Answer: Puerto Rico women's national volleyball, Leonas de Ponce, Lancheras de Cataño, Polluelas de Aibonito

Why is it called the Hawaiian pizza?

The addition of pineapple to the traditional mix of tomato sauce and cheese, along with either ham or bacon, later became popular locally and eventually became a staple offering of pizzerias on a global scale. The name of this creation is, in fact, actually not directly inspired by the U.S. state of Hawaii at all; Panopoulos chose the name Hawaiian after the brand of canned pineapple they were using at the time.

The name comes from the canned pineapple brand

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### Instruction: Why is it called the Hawaiian pizza? ### Context: The addition of pineapple to the traditional mix of tomato sauce and cheese, along with either ham or bacon, later became popular locally and eventually became a staple offering of pizzerias on a global scale. The name of this creation is, in fact, actually not directly inspired by the U.S. state of Hawaii at all; Panopoulos chose the name Hawaiian after the brand of canned pineapple they were using at the time. ### Answer: The name comes from the canned pineapple brand

Give a bulleted list of the amount of money the film "Everything Everywhere All at Once" earned outside of the US in the format {country}-{money earned in millions in USD}

Outside of the United States, other top-earning territories as of July 31 were the United Kingdom ($6.2 million), Canada ($5.1 million), Australia ($4.5 million), Russia ($2.4 million), Taiwan ($2.3 million), Mexico ($2 million), Hong Kong ($1.7 million), Germany ($1.5 million), and the Netherlands ($1.1 million).

United Kingdom-$6.2 Canada-$5.1 Australia-$4.5 Russia-$2.4 Taiwan-$2.4 Mexico-$2 Hong Kong-$1.7 Germany-$1.5 Netherlands-$1.1

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### Instruction: Give a bulleted list of the amount of money the film "Everything Everywhere All at Once" earned outside of the US in the format {country}-{money earned in millions in USD} ### Context: Outside of the United States, other top-earning territories as of July 31 were the United Kingdom ($6.2 million), Canada ($5.1 million), Australia ($4.5 million), Russia ($2.4 million), Taiwan ($2.3 million), Mexico ($2 million), Hong Kong ($1.7 million), Germany ($1.5 million), and the Netherlands ($1.1 million). ### Answer: United Kingdom-$6.2 Canada-$5.1 Australia-$4.5 Russia-$2.4 Taiwan-$2.4 Mexico-$2 Hong Kong-$1.7 Germany-$1.5 Netherlands-$1.1

What is the average lifespan of a Golden Retriever?

Golden Retrievers are a generally healthy breed; they have an average lifespan of 12 to 13 years. Irresponsible breeding to meet high demand has led to the prevalence of inherited health problems in some breed lines, including allergic skin conditions, eye problems and sometimes snappiness. These problems are rarely encountered in dogs bred from responsible breeders.

The average lifespan of a Golden Retriever is 12 to 13 years.

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### Instruction: What is the average lifespan of a Golden Retriever? ### Context: Golden Retrievers are a generally healthy breed; they have an average lifespan of 12 to 13 years. Irresponsible breeding to meet high demand has led to the prevalence of inherited health problems in some breed lines, including allergic skin conditions, eye problems and sometimes snappiness. These problems are rarely encountered in dogs bred from responsible breeders. ### Answer: The average lifespan of a Golden Retriever is 12 to 13 years.

Which two kings fought at the Battle of Kressenbrunn according to the text?

The Battle of Kressenbrunn (Hungarian: Első morvamezei csata / kroissenbrunni csata) was fought in July 1260 near Groissenbrunn in Lower Austria between the Kingdom of Bohemia and the Kingdom of Hungary for the possession of the duchies of Austria and Styria. The Bohemian forces were led by King Ottokar II Přemysl, while the Hungarians were led by his cousin, King Béla IV of Hungary . In 1251, Ottokar's father King Wenceslaus I of Bohemia had not only granted him the title of a Margrave of Moravia, but also installed him as duke of Austria and Styria, territories that were princeless after the ruling Babenberg dynasty had become extinct in 1246. To legitimate his succession, Ottokar in 1252 married the Duchess Margaret of Austria, the sister of the last Babenberg duke and about 26 years his senior.

King Ottokar II and King Béla IV

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### Instruction: Which two kings fought at the Battle of Kressenbrunn according to the text? ### Context: The Battle of Kressenbrunn (Hungarian: Első morvamezei csata / kroissenbrunni csata) was fought in July 1260 near Groissenbrunn in Lower Austria between the Kingdom of Bohemia and the Kingdom of Hungary for the possession of the duchies of Austria and Styria. The Bohemian forces were led by King Ottokar II Přemysl, while the Hungarians were led by his cousin, King Béla IV of Hungary . In 1251, Ottokar's father King Wenceslaus I of Bohemia had not only granted him the title of a Margrave of Moravia, but also installed him as duke of Austria and Styria, territories that were princeless after the ruling Babenberg dynasty had become extinct in 1246. To legitimate his succession, Ottokar in 1252 married the Duchess Margaret of Austria, the sister of the last Babenberg duke and about 26 years his senior. ### Answer: King Ottokar II and King Béla IV