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Who is the first chairman of Chine? | Mao Zedong (26 December 1893 – 9 September 1976), also known as Chairman Mao, was a Chinese communist revolutionary who was the founder of the People's Republic of China (PRC), which he led as the chairman of the Chinese Communist Party from the establishment of the PRC in 1949 until his death in 1976. Ideologically a Marxist–Leninist, his theories, military strategies, and political policies are collectively known as Maoism. | Mao Zedong is the first chairman of the People's Republic of China, he is also known as Chairman Mao, was a Chinese communist revolutionary and the founder of the People's Republic of China. He served as the chairman of the Chinese Communist Party from the establishment of the PRC in 1949 until his death in 1976 | closed_qa | ### Instruction: Who is the first chairman of Chine?
### Context: Mao Zedong (26 December 1893 – 9 September 1976), also known as Chairman Mao, was a Chinese communist revolutionary who was the founder of the People's Republic of China (PRC), which he led as the chairman of the Chinese Communist Party from the establishment of the PRC in 1949 until his death in 1976. Ideologically a Marxist–Leninist, his theories, military strategies, and political policies are collectively known as Maoism.
### Answer: Mao Zedong is the first chairman of the People's Republic of China, he is also known as Chairman Mao, was a Chinese communist revolutionary and the founder of the People's Republic of China. He served as the chairman of the Chinese Communist Party from the establishment of the PRC in 1949 until his death in 1976</s> |
Given this paragraph about the experiment that led to the discovery of penicillin by Sir Alexander Fleming, tell me upon which types of bacteria penicillin has an anti-bacterial effect, and list the conditions that were necessary for the discovery of penicillin | By 1927, Fleming had been investigating the properties of staphylococci. He was already well known from his earlier work, and had developed a reputation as a brilliant researcher. In 1928, he studied the variation of Staphylococcus aureus grown under natural condition, after the work of Joseph Warwick Bigger, who discovered that the bacterium could grow into a variety of types (strains). On 3 September 1928, Fleming returned to his laboratory having spent a holiday with his family at Suffolk. Before leaving for his holiday, he inoculated staphylococci on culture plates and left them on a bench in a corner of his laboratory. On his return, Fleming noticed that one culture was contaminated with a fungus, and that the colonies of staphylococci immediately surrounding the fungus had been destroyed, whereas other staphylococci colonies farther away were normal, famously remarking "That's funny". Fleming showed the contaminated culture to his former assistant Merlin Pryce, who reminded him, "That's how you discovered lysozyme." He identified the mould as being from the genus Penicillium. He suspected it to be P. chrysogenum, but a colleague Charles J. La Touche identified it as P. rubrum. (It was later corrected as P. notatum and then officially accepted as P. chrysogenum; in 2011, it was resolved as P. rubens.)
The laboratory in which Fleming discovered and tested penicillin is preserved as the Alexander Fleming Laboratory Museum in St. Mary's Hospital, Paddington. The source of the fungal contaminant was established in 1966 as coming from La Touche's room, which was directly below Fleming's.
Fleming grew the mould in a pure culture and found that the culture broth contained an antibacterial substance. He investigated its anti-bacterial effect on many organisms, and noticed that it affected bacteria such as staphylococci and many other Gram-positive pathogens that cause scarlet fever, pneumonia, meningitis and diphtheria, but not typhoid fever or paratyphoid fever, which are caused by Gram-negative bacteria, for which he was seeking a cure at the time. It also affected Neisseria gonorrhoeae, which causes gonorrhoea, although this bacterium is Gram-negative. After some months of calling it "mould juice" or "the inhibitor", he gave the name penicillin on 7 March 1929 for the antibacterial substance present in the mould. | Penicillin has an anti-bacterial effect of a number of Gram-positive bacteria including but not limited to the bacteria that cause meningitis, diptheria, pneumonia, scarlet fever. It also acts on (Gram-positive) staphylococci bacteria which cause skin and soft tissue infections such as boils. Penicillin was also found to have an anti-bacterial action on the Gram-negative bacteria which causes gonorrhoea. There were a series of fortuitous circumstances which combined to allow the discovery of penicillin, one of which was Sir Alexander's choice to take a holiday with his family after leaving staphylococci bacteria in a culture in his lab before departure. Anecdotally Sir Alexander was a little sloppy with lab hygiene which contributed to his previous discovery of lysozyme and it seems the same lack of care was partly responsible for the discovery of penicillin. Lastly the specific location of his lab and cultures played a role - the fungal contaminant that had an anti-bacterial effect on the staphylococci culture came from Sir Alexander's colleagues lab one floor below | closed_qa | ### Instruction: Given this paragraph about the experiment that led to the discovery of penicillin by Sir Alexander Fleming, tell me upon which types of bacteria penicillin has an anti-bacterial effect, and list the conditions that were necessary for the discovery of penicillin
### Context: By 1927, Fleming had been investigating the properties of staphylococci. He was already well known from his earlier work, and had developed a reputation as a brilliant researcher. In 1928, he studied the variation of Staphylococcus aureus grown under natural condition, after the work of Joseph Warwick Bigger, who discovered that the bacterium could grow into a variety of types (strains). On 3 September 1928, Fleming returned to his laboratory having spent a holiday with his family at Suffolk. Before leaving for his holiday, he inoculated staphylococci on culture plates and left them on a bench in a corner of his laboratory. On his return, Fleming noticed that one culture was contaminated with a fungus, and that the colonies of staphylococci immediately surrounding the fungus had been destroyed, whereas other staphylococci colonies farther away were normal, famously remarking "That's funny". Fleming showed the contaminated culture to his former assistant Merlin Pryce, who reminded him, "That's how you discovered lysozyme." He identified the mould as being from the genus Penicillium. He suspected it to be P. chrysogenum, but a colleague Charles J. La Touche identified it as P. rubrum. (It was later corrected as P. notatum and then officially accepted as P. chrysogenum; in 2011, it was resolved as P. rubens.)
The laboratory in which Fleming discovered and tested penicillin is preserved as the Alexander Fleming Laboratory Museum in St. Mary's Hospital, Paddington. The source of the fungal contaminant was established in 1966 as coming from La Touche's room, which was directly below Fleming's.
Fleming grew the mould in a pure culture and found that the culture broth contained an antibacterial substance. He investigated its anti-bacterial effect on many organisms, and noticed that it affected bacteria such as staphylococci and many other Gram-positive pathogens that cause scarlet fever, pneumonia, meningitis and diphtheria, but not typhoid fever or paratyphoid fever, which are caused by Gram-negative bacteria, for which he was seeking a cure at the time. It also affected Neisseria gonorrhoeae, which causes gonorrhoea, although this bacterium is Gram-negative. After some months of calling it "mould juice" or "the inhibitor", he gave the name penicillin on 7 March 1929 for the antibacterial substance present in the mould.
### Answer: Penicillin has an anti-bacterial effect of a number of Gram-positive bacteria including but not limited to the bacteria that cause meningitis, diptheria, pneumonia, scarlet fever. It also acts on (Gram-positive) staphylococci bacteria which cause skin and soft tissue infections such as boils. Penicillin was also found to have an anti-bacterial action on the Gram-negative bacteria which causes gonorrhoea. There were a series of fortuitous circumstances which combined to allow the discovery of penicillin, one of which was Sir Alexander's choice to take a holiday with his family after leaving staphylococci bacteria in a culture in his lab before departure. Anecdotally Sir Alexander was a little sloppy with lab hygiene which contributed to his previous discovery of lysozyme and it seems the same lack of care was partly responsible for the discovery of penicillin. Lastly the specific location of his lab and cultures played a role - the fungal contaminant that had an anti-bacterial effect on the staphylococci culture came from Sir Alexander's colleagues lab one floor below</s> |
Why was Advani concerned about Modi’s appointment as a chief minister of Gujarat? | In 2001, Keshubhai Patel's health was failing and the BJP lost a few state assembly seats in by-elections. Allegations of abuse of power, corruption and poor administration were made, and Patel's standing had been damaged by his administration's handling of the earthquake in Bhuj in 2001. The BJP national leadership sought a new candidate for the chief ministership, and Modi, who had expressed misgivings about Patel's administration, was chosen as a replacement. Although Advani did not want to ostracise Patel and was concerned about Modi's lack of experience in government, Modi declined an offer to be Patel's deputy chief minister, telling Advani and Atal Bihari Vajpayee that he was "going to be fully responsible for Gujarat or not at all". On 3 October 2001 he replaced Patel as chief minister of Gujarat, with the responsibility of preparing the BJP for the December 2002 elections. On 7 October, he was sworn in, and entered the Gujarat state legislature on 24 February 2002 by winning a by-election to the Rajkot – II constituency, defeating Ashwin Mehta of the INC. | For Modi being a candidate for the chief minister of Gujarat, Advani was concerned about Modi’s lack of political experience. | closed_qa | ### Instruction: Why was Advani concerned about Modi’s appointment as a chief minister of Gujarat?
### Context: In 2001, Keshubhai Patel's health was failing and the BJP lost a few state assembly seats in by-elections. Allegations of abuse of power, corruption and poor administration were made, and Patel's standing had been damaged by his administration's handling of the earthquake in Bhuj in 2001. The BJP national leadership sought a new candidate for the chief ministership, and Modi, who had expressed misgivings about Patel's administration, was chosen as a replacement. Although Advani did not want to ostracise Patel and was concerned about Modi's lack of experience in government, Modi declined an offer to be Patel's deputy chief minister, telling Advani and Atal Bihari Vajpayee that he was "going to be fully responsible for Gujarat or not at all". On 3 October 2001 he replaced Patel as chief minister of Gujarat, with the responsibility of preparing the BJP for the December 2002 elections. On 7 October, he was sworn in, and entered the Gujarat state legislature on 24 February 2002 by winning a by-election to the Rajkot – II constituency, defeating Ashwin Mehta of the INC.
### Answer: For Modi being a candidate for the chief minister of Gujarat, Advani was concerned about Modi’s lack of political experience.</s> |
Who is Ron Rivest? | Ronald Linn Rivest is a cryptographer and an Institute Professor at MIT. He is a member of MIT's Department of Electrical Engineering and Computer Science (EECS) and a member of MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL). His work has spanned the fields of algorithms and combinatorics, cryptography, machine learning, and election integrity. Rivest is one of the inventors of the RSA algorithm (along with Adi Shamir and Len Adleman). He is the inventor of the symmetric key encryption algorithms RC2, RC4, RC5, and co-inventor of RC6. The "RC" stands for "Rivest Cipher", or alternatively, "Ron's Code". (RC3 was broken at RSA Security during development; similarly, RC1 was never published.) He also authored the MD2, MD4, MD5 and MD6 cryptographic hash functions. | Ron Rivest is a cryptographer and computer science professor at MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL). He is most well known as the inventor of the RSA public key cryptosystem (with Adi Shamir and Len Adleman). Rivest is also known as the inventor of the RC4 stream cipher and MD5 hash function. | closed_qa | ### Instruction: Who is Ron Rivest?
### Context: Ronald Linn Rivest is a cryptographer and an Institute Professor at MIT. He is a member of MIT's Department of Electrical Engineering and Computer Science (EECS) and a member of MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL). His work has spanned the fields of algorithms and combinatorics, cryptography, machine learning, and election integrity. Rivest is one of the inventors of the RSA algorithm (along with Adi Shamir and Len Adleman). He is the inventor of the symmetric key encryption algorithms RC2, RC4, RC5, and co-inventor of RC6. The "RC" stands for "Rivest Cipher", or alternatively, "Ron's Code". (RC3 was broken at RSA Security during development; similarly, RC1 was never published.) He also authored the MD2, MD4, MD5 and MD6 cryptographic hash functions.
### Answer: Ron Rivest is a cryptographer and computer science professor at MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL). He is most well known as the inventor of the RSA public key cryptosystem (with Adi Shamir and Len Adleman). Rivest is also known as the inventor of the RC4 stream cipher and MD5 hash function.</s> |
What is Brownism? | In British politics, Brownism is the political ideology of the former Prime Minister and leader of the Labour Party Gordon Brown and those that follow him. Proponents of Brownism are referred to as Brownites. Brownites tend to be less enthusiastic about market driven reforms such as tuition fees and foundation hospitals and more keen on the role of the state, less critical of Labour's links to the unions and critical of media management techniques such as the use of spin doctors. Will Hutton opined: "Like Tony Blair [Gordon Brown] is a believer in a pluralist and fair society, social mobility, and marrying economic efficiency with social justice". | In British politics, Brownism is the political ideology of the former Prime Minister and leader of the Labour Party Gordon Brown and those that follow him. Brownites tend to be less enthusiastic about market driven reforms such as tuition fees and foundation hospitals and more keen on the role of the state, less critical of Labour's links to the unions and critical of media management techniques such as the use of spin doctors | closed_qa | ### Instruction: What is Brownism?
### Context: In British politics, Brownism is the political ideology of the former Prime Minister and leader of the Labour Party Gordon Brown and those that follow him. Proponents of Brownism are referred to as Brownites. Brownites tend to be less enthusiastic about market driven reforms such as tuition fees and foundation hospitals and more keen on the role of the state, less critical of Labour's links to the unions and critical of media management techniques such as the use of spin doctors. Will Hutton opined: "Like Tony Blair [Gordon Brown] is a believer in a pluralist and fair society, social mobility, and marrying economic efficiency with social justice".
### Answer: In British politics, Brownism is the political ideology of the former Prime Minister and leader of the Labour Party Gordon Brown and those that follow him. Brownites tend to be less enthusiastic about market driven reforms such as tuition fees and foundation hospitals and more keen on the role of the state, less critical of Labour's links to the unions and critical of media management techniques such as the use of spin doctors</s> |
Given this paragraph about Sam Baker, what is the Outland Trophy? | Baker attended the University of Southern California, where he played for coach Pete Carroll's USC Trojans football team from 2003 to 2007. He was a first-team All-American as a redshirt sophomore in 2005.
He was on the official 2006 watch list for the Lombardi Award and the Outland Trophy for the best lineman. In his collegiate career Baker blocked for Reggie Bush and Matt Leinart. He was named a first-team All-Pacific-10 Conference selection by the league's coaches in 2005 and 2006. He was a recognized as a consensus first-team All-American, having received first-team honors from the Football Writers Association of America, Sporting News and CBSSports.com.
Going into his fourth year as a starter, Baker was on the Lombardi Award and Outland Trophy watch lists. He was ranked as one of the "Top 20 Players Heading Into 2007" by Sports Illustrated. Before his final season in 2007, Baker was already regarded by most NFL scouts as a certain top-five player in the 2008 NFL Draft. | The Outland Trophy is given to the best offensive lineman in college football. | closed_qa | ### Instruction: Given this paragraph about Sam Baker, what is the Outland Trophy?
### Context: Baker attended the University of Southern California, where he played for coach Pete Carroll's USC Trojans football team from 2003 to 2007. He was a first-team All-American as a redshirt sophomore in 2005.
He was on the official 2006 watch list for the Lombardi Award and the Outland Trophy for the best lineman. In his collegiate career Baker blocked for Reggie Bush and Matt Leinart. He was named a first-team All-Pacific-10 Conference selection by the league's coaches in 2005 and 2006. He was a recognized as a consensus first-team All-American, having received first-team honors from the Football Writers Association of America, Sporting News and CBSSports.com.
Going into his fourth year as a starter, Baker was on the Lombardi Award and Outland Trophy watch lists. He was ranked as one of the "Top 20 Players Heading Into 2007" by Sports Illustrated. Before his final season in 2007, Baker was already regarded by most NFL scouts as a certain top-five player in the 2008 NFL Draft.
### Answer: The Outland Trophy is given to the best offensive lineman in college football.</s> |
Given this paragraph about Twitch Interactive, in what year did Amazon acquire them? | Twitch is an American video live streaming service that focuses on video game live streaming, including broadcasts of esports competitions, in addition to offering music broadcasts, creative content, and "in real life" streams. Twitch is operated by Twitch Interactive, a subsidiary of Amazon.com, Inc. It was introduced in June 2011 as a spin-off of the general-interest streaming platform Justin.tv. Content on the site can be viewed either live or via video on demand. The games shown on Twitch's current homepage are listed according to audience preference and include genres such as real-time strategy games (RTS), fighting games, racing games, and first-person shooters.
The popularity of Twitch eclipsed that of its general-interest counterpart. In October 2013, the website had 45 million unique viewers, and by February 2014, it was considered the fourth-largest source of peak Internet traffic in the United States. At the same time, Justin.tv's parent company was re-branded as Twitch Interactive to represent the shift in focus – Justin.tv was shut down in August 2014. That month, the service was acquired by Amazon for US$970 million, which later led to the introduction of synergies with the company's subscription service Amazon Prime. Twitch acquired Curse LLC in 2016, an operator of online video gaming communities and introduced means to purchase games through links on streams along with a program allowing streamers to receive commissions on the sales of games that they play.
By 2015, Twitch had more than 100 million viewers per month. In 2017, Twitch remained the leading live streaming video service for video games in the US, and had an advantage over YouTube Gaming, which shut down its standalone app in May 2019. As of February 2020, it had 3 million broadcasters monthly and 15 million daily active users, with 1.4 million average concurrent users. As of May 2018, Twitch had over 27,000 partner channels.[1 | Amazon acquired Twitch in the year 2014. | closed_qa | ### Instruction: Given this paragraph about Twitch Interactive, in what year did Amazon acquire them?
### Context: Twitch is an American video live streaming service that focuses on video game live streaming, including broadcasts of esports competitions, in addition to offering music broadcasts, creative content, and "in real life" streams. Twitch is operated by Twitch Interactive, a subsidiary of Amazon.com, Inc. It was introduced in June 2011 as a spin-off of the general-interest streaming platform Justin.tv. Content on the site can be viewed either live or via video on demand. The games shown on Twitch's current homepage are listed according to audience preference and include genres such as real-time strategy games (RTS), fighting games, racing games, and first-person shooters.
The popularity of Twitch eclipsed that of its general-interest counterpart. In October 2013, the website had 45 million unique viewers, and by February 2014, it was considered the fourth-largest source of peak Internet traffic in the United States. At the same time, Justin.tv's parent company was re-branded as Twitch Interactive to represent the shift in focus – Justin.tv was shut down in August 2014. That month, the service was acquired by Amazon for US$970 million, which later led to the introduction of synergies with the company's subscription service Amazon Prime. Twitch acquired Curse LLC in 2016, an operator of online video gaming communities and introduced means to purchase games through links on streams along with a program allowing streamers to receive commissions on the sales of games that they play.
By 2015, Twitch had more than 100 million viewers per month. In 2017, Twitch remained the leading live streaming video service for video games in the US, and had an advantage over YouTube Gaming, which shut down its standalone app in May 2019. As of February 2020, it had 3 million broadcasters monthly and 15 million daily active users, with 1.4 million average concurrent users. As of May 2018, Twitch had over 27,000 partner channels.[1
### Answer: Amazon acquired Twitch in the year 2014.</s> |
Which company built the F-22 Raptor? | The Lockheed Martin F-22 Raptor is an American single-seat, twin-engine, all-weather stealth tactical fighter aircraft developed for the United States Air Force (USAF). As the result of the USAF's Advanced Tactical Fighter (ATF) program, the aircraft was designed as an air superiority fighter, but also has ground attack, electronic warfare, and signals intelligence capabilities. The prime contractor, Lockheed Martin, built most of the F-22's airframe and weapons systems and conducted final assembly, while Boeing provided the wings, aft fuselage, avionics integration, and training systems.
The aircraft first flew in 1997 and was variously designated F-22 and F/A-22 before it formally entered service in December 2005 as the F-22A. Although the USAF had originally planned to buy a total of 750 ATFs, the program was cut to 187 operational aircraft in 2009 due to high costs, a lack of air-to-air missions at the time of production, and the development of the more affordable and versatile F-35.[N 1] The last F-22 was delivered in 2012.
While it had a protracted development and initial operational difficulties, the F-22 has become a critical component of the USAF's tactical airpower. The fighter's combination of stealth, aerodynamic performance, and mission systems enabled a leap in air combat capabilities and set the benchmark for its generation. The F-22 is expected to serve into the 2030s and eventually be succeeded by the USAF's Next Generation Air Dominance (NGAD) manned fighter component. | The F-22 Raptor was built primarily by Lockheed Martin, but several significant components were built by Boeing including the wings, aft fuselage, avionics integration, and training systems. | closed_qa | ### Instruction: Which company built the F-22 Raptor?
### Context: The Lockheed Martin F-22 Raptor is an American single-seat, twin-engine, all-weather stealth tactical fighter aircraft developed for the United States Air Force (USAF). As the result of the USAF's Advanced Tactical Fighter (ATF) program, the aircraft was designed as an air superiority fighter, but also has ground attack, electronic warfare, and signals intelligence capabilities. The prime contractor, Lockheed Martin, built most of the F-22's airframe and weapons systems and conducted final assembly, while Boeing provided the wings, aft fuselage, avionics integration, and training systems.
The aircraft first flew in 1997 and was variously designated F-22 and F/A-22 before it formally entered service in December 2005 as the F-22A. Although the USAF had originally planned to buy a total of 750 ATFs, the program was cut to 187 operational aircraft in 2009 due to high costs, a lack of air-to-air missions at the time of production, and the development of the more affordable and versatile F-35.[N 1] The last F-22 was delivered in 2012.
While it had a protracted development and initial operational difficulties, the F-22 has become a critical component of the USAF's tactical airpower. The fighter's combination of stealth, aerodynamic performance, and mission systems enabled a leap in air combat capabilities and set the benchmark for its generation. The F-22 is expected to serve into the 2030s and eventually be succeeded by the USAF's Next Generation Air Dominance (NGAD) manned fighter component.
### Answer: The F-22 Raptor was built primarily by Lockheed Martin, but several significant components were built by Boeing including the wings, aft fuselage, avionics integration, and training systems.</s> |
Given these paragraphs about Multiomics, what is single-cell multiomics? | Multiomics, multi-omics, integrative omics, "panomics" or "pan-omics" is a biological analysis approach in which the data sets are multiple "omes", such as the genome, proteome, transcriptome, epigenome, metabolome, and microbiome (i.e., a meta-genome and/or meta-transcriptome, depending upon how it is sequenced); in other words, the use of multiple omics technologies to study life in a concerted way. By combining these "omes", scientists can analyze complex biological big data to find novel associations between biological entities, pinpoint relevant biomarkers and build elaborate markers of disease and physiology. In doing so, multiomics integrates diverse omics data to find a coherently matching geno-pheno-envirotype relationship or association. The OmicTools service lists more than 99 softwares related to multiomic data analysis, as well as more than 99 databases on the topic.
Systems biology approaches are often based upon the use of panomic analysis data. The American Society of Clinical Oncology (ASCO) defines panomics as referring to "the interaction of all biological functions within a cell and with other body functions, combining data collected by targeted tests ... and global assays (such as genome sequencing) with other patient-specific information."
Single-cell multiomics
A branch of the field of multiomics is the analysis of multilevel single-cell data, called single-cell multiomics. This approach gives us an unprecedent resolution to look at multilevel transitions in health and disease at the single cell level. An advantage in relation to bulk analysis is to mitigate confounding factors derived from cell to cell variation, allowing the uncovering of heterogeneous tissue architectures.
Methods for parallel single-cell genomic and transcriptomic analysis can be based on simultaneous amplification or physical separation of RNA and genomic DNA. They allow insights that cannot be gathered solely from transcriptomic analysis, as RNA data do not contain non-coding genomic regions and information regarding copy-number variation, for example. An extension of this methodology is the integration of single-cell transcriptomes to single-cell methylomes, combining single-cell bisulfite sequencing to single cell RNA-Seq. Other techniques to query the epigenome, as single-cell ATAC-Seq and single-cell Hi-C also exist.
A different, but related, challenge is the integration of proteomic and transcriptomic data. One approach to perform such measurement is to physically separate single-cell lysates in two, processing half for RNA, and half for proteins. The protein content of lysates can be measured by proximity extension assays (PEA), for example, which use DNA-barcoded antibodies. A different approach uses a combination of heavy-metal RNA probes and protein antibodies to adapt mass cytometry for multiomic analysis.
Multiomics and machine learning
In parallel to the advances in highthroughput biology, machine learning applications to biomedical data analysis are flourishing. The integration of multi-omics data analysis and machine learning has led to the discovery of new biomarkers. For example, one of the methods of the mixOmics project implements a method based on sparse Partial Least Squares regression for selection of features (putative biomarkers).
https://en.wikipedia.org/wiki/Multiomics | The analysis of multilevel single-cell data. This approach gives us an unprecedent resolution to look at multilevel transitions in health and disease at the single cell level. | closed_qa | ### Instruction: Given these paragraphs about Multiomics, what is single-cell multiomics?
### Context: Multiomics, multi-omics, integrative omics, "panomics" or "pan-omics" is a biological analysis approach in which the data sets are multiple "omes", such as the genome, proteome, transcriptome, epigenome, metabolome, and microbiome (i.e., a meta-genome and/or meta-transcriptome, depending upon how it is sequenced); in other words, the use of multiple omics technologies to study life in a concerted way. By combining these "omes", scientists can analyze complex biological big data to find novel associations between biological entities, pinpoint relevant biomarkers and build elaborate markers of disease and physiology. In doing so, multiomics integrates diverse omics data to find a coherently matching geno-pheno-envirotype relationship or association. The OmicTools service lists more than 99 softwares related to multiomic data analysis, as well as more than 99 databases on the topic.
Systems biology approaches are often based upon the use of panomic analysis data. The American Society of Clinical Oncology (ASCO) defines panomics as referring to "the interaction of all biological functions within a cell and with other body functions, combining data collected by targeted tests ... and global assays (such as genome sequencing) with other patient-specific information."
Single-cell multiomics
A branch of the field of multiomics is the analysis of multilevel single-cell data, called single-cell multiomics. This approach gives us an unprecedent resolution to look at multilevel transitions in health and disease at the single cell level. An advantage in relation to bulk analysis is to mitigate confounding factors derived from cell to cell variation, allowing the uncovering of heterogeneous tissue architectures.
Methods for parallel single-cell genomic and transcriptomic analysis can be based on simultaneous amplification or physical separation of RNA and genomic DNA. They allow insights that cannot be gathered solely from transcriptomic analysis, as RNA data do not contain non-coding genomic regions and information regarding copy-number variation, for example. An extension of this methodology is the integration of single-cell transcriptomes to single-cell methylomes, combining single-cell bisulfite sequencing to single cell RNA-Seq. Other techniques to query the epigenome, as single-cell ATAC-Seq and single-cell Hi-C also exist.
A different, but related, challenge is the integration of proteomic and transcriptomic data. One approach to perform such measurement is to physically separate single-cell lysates in two, processing half for RNA, and half for proteins. The protein content of lysates can be measured by proximity extension assays (PEA), for example, which use DNA-barcoded antibodies. A different approach uses a combination of heavy-metal RNA probes and protein antibodies to adapt mass cytometry for multiomic analysis.
Multiomics and machine learning
In parallel to the advances in highthroughput biology, machine learning applications to biomedical data analysis are flourishing. The integration of multi-omics data analysis and machine learning has led to the discovery of new biomarkers. For example, one of the methods of the mixOmics project implements a method based on sparse Partial Least Squares regression for selection of features (putative biomarkers).
https://en.wikipedia.org/wiki/Multiomics
### Answer: The analysis of multilevel single-cell data. This approach gives us an unprecedent resolution to look at multilevel transitions in health and disease at the single cell level.</s> |
What was the first road trip after Elson joined Indiana University? | Elson joined the Hilltoppers staff as a defensive backs coach in 1996. He served as defensive coordinator for the 2001 and 2002 season before he was promoted to head coach. The rise to college football's highest level was difficult for the program, and Hilltoppers went 2-20 in Elson's final two seasons.
On November 9, 2009 Elson was fired by the university, finishing out the 2009 season. WKU alumnus and Stanford running backs coach Willie Taggart replaced him.
In March 2010, Indiana University head football coach Bill Lynch announced that Elson will be a defensive quality control coach. Coach Lynch noted this would mainly be an administrative role, but that he would be involved in coaching decisions. The Hoosiers made their first road trip of the year to play Elson's former team, the WKU Hilltoppers in Bowling Green, Kentucky.
Elson spent the 2011 football season as defensive coordinator for KHSAA state finalist Franklin-Simpson High School in Franklin, Kentucky.
On January 4, 2012, Elson was announced as the defensive coordinator at New Mexico State University.
On January 13, 2013, Elson was announced as the new secondary coach for the Southern Illinois University Carbondale, where he was a graduate assistant from 94 to 95. On January 20, 2016, after two years at Southern Illinois, Elson accepted the position as defensive coordinator at Western Illinois under new head coach Charlie Fisher. | The roadtrip was to play the WKU Hilltoppers in Bowling Green, Kentucky | closed_qa | ### Instruction: What was the first road trip after Elson joined Indiana University?
### Context: Elson joined the Hilltoppers staff as a defensive backs coach in 1996. He served as defensive coordinator for the 2001 and 2002 season before he was promoted to head coach. The rise to college football's highest level was difficult for the program, and Hilltoppers went 2-20 in Elson's final two seasons.
On November 9, 2009 Elson was fired by the university, finishing out the 2009 season. WKU alumnus and Stanford running backs coach Willie Taggart replaced him.
In March 2010, Indiana University head football coach Bill Lynch announced that Elson will be a defensive quality control coach. Coach Lynch noted this would mainly be an administrative role, but that he would be involved in coaching decisions. The Hoosiers made their first road trip of the year to play Elson's former team, the WKU Hilltoppers in Bowling Green, Kentucky.
Elson spent the 2011 football season as defensive coordinator for KHSAA state finalist Franklin-Simpson High School in Franklin, Kentucky.
On January 4, 2012, Elson was announced as the defensive coordinator at New Mexico State University.
On January 13, 2013, Elson was announced as the new secondary coach for the Southern Illinois University Carbondale, where he was a graduate assistant from 94 to 95. On January 20, 2016, after two years at Southern Illinois, Elson accepted the position as defensive coordinator at Western Illinois under new head coach Charlie Fisher.
### Answer: The roadtrip was to play the WKU Hilltoppers in Bowling Green, Kentucky</s> |
When did Peloton IPO? | On September 26, 2019, Peloton became a public company via an initial public offering, raising $1.16 billion and valuing the company at $8.1 billion. After reaching a market valuation of $50 billion in January 2021, the company's valuation was back to around $8 billion by April 2022. | Peloton became a public company via an initial public offering on September 26, 2019. | closed_qa | ### Instruction: When did Peloton IPO?
### Context: On September 26, 2019, Peloton became a public company via an initial public offering, raising $1.16 billion and valuing the company at $8.1 billion. After reaching a market valuation of $50 billion in January 2021, the company's valuation was back to around $8 billion by April 2022.
### Answer: Peloton became a public company via an initial public offering on September 26, 2019.</s> |
Given this reference paragrah, who directed "The Man in the Saddle?" | The Man in the Saddle (German: Der Mann im Sattel) is a 1945 German film directed by and starring Harry Piel. | Harry Piel | closed_qa | ### Instruction: Given this reference paragrah, who directed "The Man in the Saddle?"
### Context: The Man in the Saddle (German: Der Mann im Sattel) is a 1945 German film directed by and starring Harry Piel.
### Answer: Harry Piel</s> |
What is TIDB | TiDB (/’taɪdiːbi:/, "Ti" stands for Titanium) is an open-source NewSQL database that supports Hybrid Transactional and Analytical Processing (HTAP) workloads. It is MySQL compatible and can provide horizontal scalability, strong consistency, and high availability. It is developed and supported primarily by PingCAP, Inc. and licensed under Apache 2.0. TiDB drew its initial design inspiration from Google's Spanner | Database developed by PingCap for hybrid transactional and analytical processing | closed_qa | ### Instruction: What is TIDB
### Context: TiDB (/’taɪdiːbi:/, "Ti" stands for Titanium) is an open-source NewSQL database that supports Hybrid Transactional and Analytical Processing (HTAP) workloads. It is MySQL compatible and can provide horizontal scalability, strong consistency, and high availability. It is developed and supported primarily by PingCAP, Inc. and licensed under Apache 2.0. TiDB drew its initial design inspiration from Google's Spanner
### Answer: Database developed by PingCap for hybrid transactional and analytical processing</s> |
Is the capital city and the largest city of Chile same or different? | Chile, officially the Republic of Chile, is a country located in western South America. It is the southernmost country in the world and closest to Antarctica, stretching along a narrow strip of land between the Andes Mountains and the Pacific Ocean. With an area of 756,096 square kilometers (291,930 sq mi) and a population of 17.5 million as of 2017, Chile shares borders with Peru to the north, Bolivia to the northeast, Argentina to the east, and the Drake Passage to the south. The country also controls several Pacific islands, including Juan Fernández, Isla Salas y Gómez, Desventuradas, and Easter Island, and claims about 1,250,000 square kilometers (480,000 sq mi) of Antarctica as the Chilean Antarctic Territory.[nb 2] The capital and largest city of Chile is Santiago, and the national language is Spanish. | They are the same. Santiago. | closed_qa | ### Instruction: Is the capital city and the largest city of Chile same or different?
### Context: Chile, officially the Republic of Chile, is a country located in western South America. It is the southernmost country in the world and closest to Antarctica, stretching along a narrow strip of land between the Andes Mountains and the Pacific Ocean. With an area of 756,096 square kilometers (291,930 sq mi) and a population of 17.5 million as of 2017, Chile shares borders with Peru to the north, Bolivia to the northeast, Argentina to the east, and the Drake Passage to the south. The country also controls several Pacific islands, including Juan Fernández, Isla Salas y Gómez, Desventuradas, and Easter Island, and claims about 1,250,000 square kilometers (480,000 sq mi) of Antarctica as the Chilean Antarctic Territory.[nb 2] The capital and largest city of Chile is Santiago, and the national language is Spanish.
### Answer: They are the same. Santiago.</s> |
Based on this paragraph from Wikipedia, where was Jerry Garcia born, how many fingers did he have, and where did he attend college? | Jerry Garcia was born August 1, 1942, in San Francisco, California. His father was Jose Ramon Garcia, a Spanish immigrant. His mother, Ruth Marie Clifford, named him after her favorite composer, Jerome Kern. His father was a jazz musician who bought a bar. As a child Garcia took piano lessons. When he was four he lost part of a finger chopping wood. A year later his father drowned. When his mother took over the bar, Garcia went to live with his grandparents. They introduced him to the Grand Ole Opry. This along with his brother's collection of Chuck Berry records gave him an interest in country music. In 1953 his mother remarried and Garcia moved back with her. Garcia attended several different schools in and around San Francisco. But he had little interest in school until 1957 when he attended the California School of Fine Arts (now the San Francisco Art Institute). At age 15 his mother gave him a guitar. In high school he played in several bands. At age 17 he quit school. He joined the Army in 1960 but was given a general discharge a few months later.
https://simple.wikipedia.org/wiki/Jerry_Garcia | Based on this paragraph, Jerry Garcia was born in San Francisco, had nine fingers and he quit school at age 17 before attending college. | closed_qa | ### Instruction: Based on this paragraph from Wikipedia, where was Jerry Garcia born, how many fingers did he have, and where did he attend college?
### Context: Jerry Garcia was born August 1, 1942, in San Francisco, California. His father was Jose Ramon Garcia, a Spanish immigrant. His mother, Ruth Marie Clifford, named him after her favorite composer, Jerome Kern. His father was a jazz musician who bought a bar. As a child Garcia took piano lessons. When he was four he lost part of a finger chopping wood. A year later his father drowned. When his mother took over the bar, Garcia went to live with his grandparents. They introduced him to the Grand Ole Opry. This along with his brother's collection of Chuck Berry records gave him an interest in country music. In 1953 his mother remarried and Garcia moved back with her. Garcia attended several different schools in and around San Francisco. But he had little interest in school until 1957 when he attended the California School of Fine Arts (now the San Francisco Art Institute). At age 15 his mother gave him a guitar. In high school he played in several bands. At age 17 he quit school. He joined the Army in 1960 but was given a general discharge a few months later.
https://simple.wikipedia.org/wiki/Jerry_Garcia
### Answer: Based on this paragraph, Jerry Garcia was born in San Francisco, had nine fingers and he quit school at age 17 before attending college.</s> |
What is Sensory processing disorder? | Sensory processing disorder (SPD, formerly known as sensory integration dysfunction) is a condition in which multisensory input is not adequately processed in order to provide appropriate responses to the demands of the environment. Sensory processing disorder is present in many people with autism spectrum disorder and attention deficit hyperactivity disorder. Individuals with SPD may inadequately process visual, auditory, olfactory (smell), gustatory (taste), tactile (touch), vestibular (balance), proprioception (body awareness), and interoception (internal body senses) sensory stimuli.
Sensory integration was defined by occupational therapist Anna Jean Ayres in 1972 as "the neurological process that organizes sensation from one's own body and from the environment and makes it possible to use the body effectively within the environment".Sensory processing disorder has been characterized as the source of significant problems in organizing sensation coming from the body and the environment and is manifested by difficulties in the performance in one or more of the main areas of life: productivity, leisure and play or activities of daily living.
Sources debate whether SPD is an independent disorder or represents the observed symptoms of various other, more well-established, disorders.SPD is not included in the Diagnostic and Statistical Manual of Mental Disorders of the American Psychiatric Association, and the American Academy of Pediatrics has recommended in 2012 that pediatricians not use SPD as a stand-alone diagnosis. | Sensory processing disorder (SPD, formerly known as sensory integration dysfunction) is a condition in which multisensory input is not adequately processed to provide appropriate responses to the demands of the environment. Sensory processing disorder is present in many people with autism spectrum disorder and attention deficit hyperactivity disorder. Individuals with SPD may inadequately process visual, auditory, olfactory (smell), gustatory (taste), tactile (touch), vestibular (balance), proprioception (body awareness), and interoception (internal body senses) sensory stimuli. | closed_qa | ### Instruction: What is Sensory processing disorder?
### Context: Sensory processing disorder (SPD, formerly known as sensory integration dysfunction) is a condition in which multisensory input is not adequately processed in order to provide appropriate responses to the demands of the environment. Sensory processing disorder is present in many people with autism spectrum disorder and attention deficit hyperactivity disorder. Individuals with SPD may inadequately process visual, auditory, olfactory (smell), gustatory (taste), tactile (touch), vestibular (balance), proprioception (body awareness), and interoception (internal body senses) sensory stimuli.
Sensory integration was defined by occupational therapist Anna Jean Ayres in 1972 as "the neurological process that organizes sensation from one's own body and from the environment and makes it possible to use the body effectively within the environment".Sensory processing disorder has been characterized as the source of significant problems in organizing sensation coming from the body and the environment and is manifested by difficulties in the performance in one or more of the main areas of life: productivity, leisure and play or activities of daily living.
Sources debate whether SPD is an independent disorder or represents the observed symptoms of various other, more well-established, disorders.SPD is not included in the Diagnostic and Statistical Manual of Mental Disorders of the American Psychiatric Association, and the American Academy of Pediatrics has recommended in 2012 that pediatricians not use SPD as a stand-alone diagnosis.
### Answer: Sensory processing disorder (SPD, formerly known as sensory integration dysfunction) is a condition in which multisensory input is not adequately processed to provide appropriate responses to the demands of the environment. Sensory processing disorder is present in many people with autism spectrum disorder and attention deficit hyperactivity disorder. Individuals with SPD may inadequately process visual, auditory, olfactory (smell), gustatory (taste), tactile (touch), vestibular (balance), proprioception (body awareness), and interoception (internal body senses) sensory stimuli.</s> |
Who was Beethoven? | Ludwig van Beethoven[n 1] (baptised 17 December 1770 – 26 March 1827) was a German composer and pianist. Beethoven remains one of the most admired composers in the history of Western music; his works rank among the most performed of the classical music repertoire and span the transition from the Classical period to the Romantic era in classical music. His career has conventionally been divided into early, middle, and late periods. His early period, during which he forged his craft, is typically considered to have lasted until 1802. From 1802 to around 1812, his middle period showed an individual development from the styles of Joseph Haydn and Wolfgang Amadeus Mozart, and is sometimes characterized as heroic. During this time, he began to grow increasingly deaf. In his late period, from 1812 to 1827, he extended his innovations in musical form and expression. | Beethoven was a German composer and pianist known for his famous symphonies such as Moonlight Sonata. | closed_qa | ### Instruction: Who was Beethoven?
### Context: Ludwig van Beethoven[n 1] (baptised 17 December 1770 – 26 March 1827) was a German composer and pianist. Beethoven remains one of the most admired composers in the history of Western music; his works rank among the most performed of the classical music repertoire and span the transition from the Classical period to the Romantic era in classical music. His career has conventionally been divided into early, middle, and late periods. His early period, during which he forged his craft, is typically considered to have lasted until 1802. From 1802 to around 1812, his middle period showed an individual development from the styles of Joseph Haydn and Wolfgang Amadeus Mozart, and is sometimes characterized as heroic. During this time, he began to grow increasingly deaf. In his late period, from 1812 to 1827, he extended his innovations in musical form and expression.
### Answer: Beethoven was a German composer and pianist known for his famous symphonies such as Moonlight Sonata.</s> |
What was the "X.Y.Z. fever"? | The XYZ Affair was a political and diplomatic episode in 1797 and 1798, early in the presidency of John Adams, involving a confrontation between the United States and Republican France that led to the Quasi-War. The name derives from the substitution of the letters X, Y, and Z for the names of French diplomats Jean-Conrad Hottinguer (X), Pierre Bellamy (Y), and Lucien Hauteval (Z) in documents released by the Adams administration. | The "X.Y.Z. fevor" is a reference to a diplomatic incident that occurred during the administration of the second President of the United Status, John Adams. Adams sent a diplomatic delegation to France to negotiate a resolution of issues that were threatening to lead to war. The French foreign minister, Charles-Maurice de Talleyrand-Périgord (Talleyrand) demanded a bribe and a loan to begin the negotiations. President Adams refused Tallyrand's request and reported the solicitation to Congress. The Senate printed President Adam's report which referred to the three French diplomats involved, Jean-Conrad Hottinguer, Pierre Bellamy, and Lucien Hauteval as "X,Y, and Z" respectively.
The populace supported Adams decision to refuse Tallyrand's bribe request. Vice-President Thomas Jefferson referred to the outpouring of support for Adam's political party that followed as "X.Y.Z. fevor". | closed_qa | ### Instruction: What was the "X.Y.Z. fever"?
### Context: The XYZ Affair was a political and diplomatic episode in 1797 and 1798, early in the presidency of John Adams, involving a confrontation between the United States and Republican France that led to the Quasi-War. The name derives from the substitution of the letters X, Y, and Z for the names of French diplomats Jean-Conrad Hottinguer (X), Pierre Bellamy (Y), and Lucien Hauteval (Z) in documents released by the Adams administration.
### Answer: The "X.Y.Z. fevor" is a reference to a diplomatic incident that occurred during the administration of the second President of the United Status, John Adams. Adams sent a diplomatic delegation to France to negotiate a resolution of issues that were threatening to lead to war. The French foreign minister, Charles-Maurice de Talleyrand-Périgord (Talleyrand) demanded a bribe and a loan to begin the negotiations. President Adams refused Tallyrand's request and reported the solicitation to Congress. The Senate printed President Adam's report which referred to the three French diplomats involved, Jean-Conrad Hottinguer, Pierre Bellamy, and Lucien Hauteval as "X,Y, and Z" respectively.
The populace supported Adams decision to refuse Tallyrand's bribe request. Vice-President Thomas Jefferson referred to the outpouring of support for Adam's political party that followed as "X.Y.Z. fevor".</s> |
Is black hole truly black? | A black hole is a region of spacetime where gravity is so strong that nothing, including light or other electromagnetic waves, has enough energy to escape its event horizon. The theory of general relativity predicts that a sufficiently compact mass can deform spacetime to form a black hole. The boundary of no escape is called the event horizon. Although it has a great effect on the fate and circumstances of an object crossing it, it has no locally detectable features according to general relativity. In many ways, a black hole acts like an ideal black body, as it reflects no light. Moreover, quantum field theory in curved spacetime predicts that event horizons emit Hawking radiation, with the same spectrum as a black body of a temperature inversely proportional to its mass. This temperature is of the order of billionths of a kelvin for stellar black holes, making it essentially impossible to observe directly. | According to general relativity, a black hole emits no lights at all. Thus it is 100% black by definition. However, when quantum effects are included, a black hole has finite temperature, emitting lights called Hawking radiation. In this sense, a black hole is not truly black. | closed_qa | ### Instruction: Is black hole truly black?
### Context: A black hole is a region of spacetime where gravity is so strong that nothing, including light or other electromagnetic waves, has enough energy to escape its event horizon. The theory of general relativity predicts that a sufficiently compact mass can deform spacetime to form a black hole. The boundary of no escape is called the event horizon. Although it has a great effect on the fate and circumstances of an object crossing it, it has no locally detectable features according to general relativity. In many ways, a black hole acts like an ideal black body, as it reflects no light. Moreover, quantum field theory in curved spacetime predicts that event horizons emit Hawking radiation, with the same spectrum as a black body of a temperature inversely proportional to its mass. This temperature is of the order of billionths of a kelvin for stellar black holes, making it essentially impossible to observe directly.
### Answer: According to general relativity, a black hole emits no lights at all. Thus it is 100% black by definition. However, when quantum effects are included, a black hole has finite temperature, emitting lights called Hawking radiation. In this sense, a black hole is not truly black.</s> |
Given a reference text about Margot Robbie, tell me when they were born and what they are famous for. | Margot Elise Robbie (/ˈmɑːrɡoʊ ˈrɒbi/; born 2 July 1990) is an Australian actress and producer. Known for her work in both blockbuster and independent films, she has received various awards and nominations, including nominations for two Academy Awards, four Golden Globe Awards, and five British Academy Film Awards. Time magazine named her one of the 100 most influential people in the world in 2017 and she was ranked as one of the world's highest-paid actresses by Forbes in 2019. | Margot Robbie was born on July 2nd, 1990. She is famous for being an Australian actress and one of Time Magazine's 100 most influential people in the world in 2017. | closed_qa | ### Instruction: Given a reference text about Margot Robbie, tell me when they were born and what they are famous for.
### Context: Margot Elise Robbie (/ˈmɑːrɡoʊ ˈrɒbi/; born 2 July 1990) is an Australian actress and producer. Known for her work in both blockbuster and independent films, she has received various awards and nominations, including nominations for two Academy Awards, four Golden Globe Awards, and five British Academy Film Awards. Time magazine named her one of the 100 most influential people in the world in 2017 and she was ranked as one of the world's highest-paid actresses by Forbes in 2019.
### Answer: Margot Robbie was born on July 2nd, 1990. She is famous for being an Australian actress and one of Time Magazine's 100 most influential people in the world in 2017.</s> |
What achievements did Cade Cunningham receive during his first year in the NBA based on the provided paragraph? | Cunningham was drafted with the first overall pick of the 2021 NBA draft by the Detroit Pistons. On August 8, 2021, he made his debut in the 2021 NBA Summer League in a 76–72 win against the Oklahoma City Thunder in which he posted 12 points, six rebounds, and two assists in 26 minutes. Cunningham lost part of the training camp, all of the preseason, and five of Detroit's first six games due to an ankle injury. On October 30, he made his NBA debut, putting up two points, two assists, and seven rebounds in a 110–103 win over the Orlando Magic. After five games, Cunningham posted his first 40-plus field-goal percentage, and he had an 18-point, 10-rebound double-double in his third NBA game. On November 15, Cunningham became the youngest player in NBA history to tally at least 25 points, eight rebounds, and eight assists with five three-pointers in a game at 20 years, 51 days. He topped LeBron James (20 years, 100 days) and Trae Young (20 years, 163 days). On November 21, he notched a triple-double with 13 points, 12 rebounds, and 10 assists in a 121—116 loss to the Los Angeles Lakers to become the eighth-youngest player in NBA history to record a triple-double and the youngest in Pistons history. | On November 15, 2021, Cade Cunningham became the youngest player in NBA history to tally at least 25 points, eight rebounds, and eight assists with five three-pointers in a game at 20 years, 51 days. He topped LeBron James (20 years, 100 days) and Trae Young (20 years, 163 days). On November 21, 2021, he notched a triple-double with 13 points, 12 rebounds, and 10 assists in a 121—116 loss to the Los Angeles Lakers to become the eighth-youngest player in NBA history to record a triple-double and the youngest in Pistons history. | closed_qa | ### Instruction: What achievements did Cade Cunningham receive during his first year in the NBA based on the provided paragraph?
### Context: Cunningham was drafted with the first overall pick of the 2021 NBA draft by the Detroit Pistons. On August 8, 2021, he made his debut in the 2021 NBA Summer League in a 76–72 win against the Oklahoma City Thunder in which he posted 12 points, six rebounds, and two assists in 26 minutes. Cunningham lost part of the training camp, all of the preseason, and five of Detroit's first six games due to an ankle injury. On October 30, he made his NBA debut, putting up two points, two assists, and seven rebounds in a 110–103 win over the Orlando Magic. After five games, Cunningham posted his first 40-plus field-goal percentage, and he had an 18-point, 10-rebound double-double in his third NBA game. On November 15, Cunningham became the youngest player in NBA history to tally at least 25 points, eight rebounds, and eight assists with five three-pointers in a game at 20 years, 51 days. He topped LeBron James (20 years, 100 days) and Trae Young (20 years, 163 days). On November 21, he notched a triple-double with 13 points, 12 rebounds, and 10 assists in a 121—116 loss to the Los Angeles Lakers to become the eighth-youngest player in NBA history to record a triple-double and the youngest in Pistons history.
### Answer: On November 15, 2021, Cade Cunningham became the youngest player in NBA history to tally at least 25 points, eight rebounds, and eight assists with five three-pointers in a game at 20 years, 51 days. He topped LeBron James (20 years, 100 days) and Trae Young (20 years, 163 days). On November 21, 2021, he notched a triple-double with 13 points, 12 rebounds, and 10 assists in a 121—116 loss to the Los Angeles Lakers to become the eighth-youngest player in NBA history to record a triple-double and the youngest in Pistons history.</s> |
Given this paragraph about rain. How is rain formed? | Rain is water droplets that have condensed from atmospheric water vapor and then fall under gravity. Rain is a major component of the water cycle and is responsible for depositing most of the fresh water on the Earth. It provides water for hydroelectric power plants, crop irrigation, and suitable conditions for many types of ecosystems. | Rain is water droplets that have condensed from atmospheric water vapor and then fall under gravity | closed_qa | ### Instruction: Given this paragraph about rain. How is rain formed?
### Context: Rain is water droplets that have condensed from atmospheric water vapor and then fall under gravity. Rain is a major component of the water cycle and is responsible for depositing most of the fresh water on the Earth. It provides water for hydroelectric power plants, crop irrigation, and suitable conditions for many types of ecosystems.
### Answer: Rain is water droplets that have condensed from atmospheric water vapor and then fall under gravity</s> |
When was Lee Kuan Yew born and when did he rule as the Prime Minister of Singapore? | Lee Kuan Yew (16 September 1923 – 23 March 2015), born Harry Lee Kuan Yew, often referred to by his initials LKY, was a Singaporean lawyer, politician and statesman who served as the inaugural Prime Minister of Singapore between 1959 and 1990, and Secretary-General of the People's Action Party between 1954 and 1992. He was the Member of Parliament (MP) for the constituency of Tanjong Pagar from 1955 until his death in 2015. Lee is widely recognised as the founding father of Singapore. | Lee Kuan Yew was born on 16 September 1923 and he served as the inaugural Prime Minister of Singapore from 1959 to 1990. | closed_qa | ### Instruction: When was Lee Kuan Yew born and when did he rule as the Prime Minister of Singapore?
### Context: Lee Kuan Yew (16 September 1923 – 23 March 2015), born Harry Lee Kuan Yew, often referred to by his initials LKY, was a Singaporean lawyer, politician and statesman who served as the inaugural Prime Minister of Singapore between 1959 and 1990, and Secretary-General of the People's Action Party between 1954 and 1992. He was the Member of Parliament (MP) for the constituency of Tanjong Pagar from 1955 until his death in 2015. Lee is widely recognised as the founding father of Singapore.
### Answer: Lee Kuan Yew was born on 16 September 1923 and he served as the inaugural Prime Minister of Singapore from 1959 to 1990.</s> |
Given this paragraph are Beavers the largest living rodents? | Beavers (genus Castor) are large, semiaquatic rodents of the Northern Hemisphere. There are two existing species: the North American beaver (Castor canadensis) and the Eurasian beaver (C. fiber). Beavers are the second-largest living rodents, after capybaras, weighing up to 30 kilograms (66 lb). Beavers have stout bodies with large heads, long chisel-like incisors, brown or gray fur, hand-like front feet, webbed back feet, and tails that are flat and scaly. The two species differ in skull and tail shape and fur color. Beavers can be found in a number of freshwater habitats, such as rivers, streams, lakes and ponds. They are herbivorous, consuming tree bark, aquatic plants, grasses and sedges. | No, Beavers are the second-largest living rodents, second to Capybaras. | closed_qa | ### Instruction: Given this paragraph are Beavers the largest living rodents?
### Context: Beavers (genus Castor) are large, semiaquatic rodents of the Northern Hemisphere. There are two existing species: the North American beaver (Castor canadensis) and the Eurasian beaver (C. fiber). Beavers are the second-largest living rodents, after capybaras, weighing up to 30 kilograms (66 lb). Beavers have stout bodies with large heads, long chisel-like incisors, brown or gray fur, hand-like front feet, webbed back feet, and tails that are flat and scaly. The two species differ in skull and tail shape and fur color. Beavers can be found in a number of freshwater habitats, such as rivers, streams, lakes and ponds. They are herbivorous, consuming tree bark, aquatic plants, grasses and sedges.
### Answer: No, Beavers are the second-largest living rodents, second to Capybaras.</s> |
What modalities does Quah Jing Wen specialize on? | Quah Jing Wen (Chinese: 柯敬文; pinyin: Kē Jìngwén; born 20 December 2000) is a Singaporean professional swimmer who specialises in individual medley, butterfly and freestyle events.
Education
Quah was educated at Methodist Girls' School and Anglo-Chinese School (Independent), before graduating from Texas A&M University in 2021 with a bachelor's degree in biomedical science.
Swimming career
Quah Jing Wen clocked 2min 12.95sec and set an Under-17 200m butterfly Singaporean national record at the Neo Garden 13th Singapore National Swimming Championships, breaking Tao Li's record set in 2005.
Quah won the bronze in the 2015 SEA Games when making her debut in the 400m IM.
In 2017, Quah won 5 gold medals and a silver medal at the Commonwealth Youth Games, held in Nassau. In the same year, she also won 5 gold medals in the 2017 SEA Games.[1 | Quah Jing Wen is specialized on individual medley, butterfly and freestyle events. | closed_qa | ### Instruction: What modalities does Quah Jing Wen specialize on?
### Context: Quah Jing Wen (Chinese: 柯敬文; pinyin: Kē Jìngwén; born 20 December 2000) is a Singaporean professional swimmer who specialises in individual medley, butterfly and freestyle events.
Education
Quah was educated at Methodist Girls' School and Anglo-Chinese School (Independent), before graduating from Texas A&M University in 2021 with a bachelor's degree in biomedical science.
Swimming career
Quah Jing Wen clocked 2min 12.95sec and set an Under-17 200m butterfly Singaporean national record at the Neo Garden 13th Singapore National Swimming Championships, breaking Tao Li's record set in 2005.
Quah won the bronze in the 2015 SEA Games when making her debut in the 400m IM.
In 2017, Quah won 5 gold medals and a silver medal at the Commonwealth Youth Games, held in Nassau. In the same year, she also won 5 gold medals in the 2017 SEA Games.[1
### Answer: Quah Jing Wen is specialized on individual medley, butterfly and freestyle events.</s> |
How many managers have Arsenal had? | There have been twenty permanent and eight caretaker managers of Arsenal since 1897; Stewart Houston has managed the club in two separate spells as caretaker. The most successful person to manage Arsenal is Arsène Wenger, who won three Premier League titles, seven FA Cups and seven Community Shields between 1996 and 2018. Wenger is the club's longest-serving manager; he surpassed George Allison's record of 13 years in October 2009. Two Arsenal managers have died in the job – Herbert Chapman and Tom Whittaker. | Arsenal have had twenty permanent and eight caretake managers. | closed_qa | ### Instruction: How many managers have Arsenal had?
### Context: There have been twenty permanent and eight caretaker managers of Arsenal since 1897; Stewart Houston has managed the club in two separate spells as caretaker. The most successful person to manage Arsenal is Arsène Wenger, who won three Premier League titles, seven FA Cups and seven Community Shields between 1996 and 2018. Wenger is the club's longest-serving manager; he surpassed George Allison's record of 13 years in October 2009. Two Arsenal managers have died in the job – Herbert Chapman and Tom Whittaker.
### Answer: Arsenal have had twenty permanent and eight caretake managers.</s> |
What is Schalke 04 famous for? | Fußballclub Gelsenkirchen-Schalke 04 e. V., commonly known as FC Schalke 04 (German: [ɛf tseː ˈʃalkə nʊl fiːɐ̯] (listen)), Schalke 04 (German: [ˌʃalkə nʊl ˈfiːɐ̯] (listen)), or abbreviated as S04 (German: [ˈɛs nʊl fiːɐ̯] (listen)), is a professional German football and multi-sports club originally from the Schalke district of Gelsenkirchen, North Rhine-Westphalia. The "04" in the club's name derives from its formation in 1904. Schalke have been one of the most popular professional football teams in Germany, even though the club's heyday was in the 1930s and 1940s. Schalke have played in the Bundesliga, the top tier of the German football league system, since 2022, following promotion from the 2. Bundesliga in 2021–22. As of 2022, the club has 160,000 members, making it the second-largest football club in Germany and the fourth-largest club in the world in terms of membership. Other activities offered by the club include athletics, basketball, handball, table tennis, winter sports and eSports. | FC Schalke 04 (full name Fußballclub Gelsenkirchen-Schalke 04 e. V. ) is a German football and multi-sports club that was founded in 1904 in Gelsenkirchen, North Rhine-Westphalia. The club won seven times the German Championship, five times the German Cup / DFB-Pokal and 1997 the UEFA-CUP, when it beat Inter Milan in the finals. The club receives from football fans all over the world renown for its youth academy, which constantly develops famous players. Benedikt Höwedes, Manuel Neuer and Mesut Özil, who won the World Cup with Germany in 2014, were formed in the Schalke 04 youth academy. Since 2011 the youth academy is called Knappenschmiede in reference to the mining industry that was very strong in the past in the area of Western Germany. A Knappe is a miner after completion of his apprenticeship. | closed_qa | ### Instruction: What is Schalke 04 famous for?
### Context: Fußballclub Gelsenkirchen-Schalke 04 e. V., commonly known as FC Schalke 04 (German: [ɛf tseː ˈʃalkə nʊl fiːɐ̯] (listen)), Schalke 04 (German: [ˌʃalkə nʊl ˈfiːɐ̯] (listen)), or abbreviated as S04 (German: [ˈɛs nʊl fiːɐ̯] (listen)), is a professional German football and multi-sports club originally from the Schalke district of Gelsenkirchen, North Rhine-Westphalia. The "04" in the club's name derives from its formation in 1904. Schalke have been one of the most popular professional football teams in Germany, even though the club's heyday was in the 1930s and 1940s. Schalke have played in the Bundesliga, the top tier of the German football league system, since 2022, following promotion from the 2. Bundesliga in 2021–22. As of 2022, the club has 160,000 members, making it the second-largest football club in Germany and the fourth-largest club in the world in terms of membership. Other activities offered by the club include athletics, basketball, handball, table tennis, winter sports and eSports.
### Answer: FC Schalke 04 (full name Fußballclub Gelsenkirchen-Schalke 04 e. V. ) is a German football and multi-sports club that was founded in 1904 in Gelsenkirchen, North Rhine-Westphalia. The club won seven times the German Championship, five times the German Cup / DFB-Pokal and 1997 the UEFA-CUP, when it beat Inter Milan in the finals. The club receives from football fans all over the world renown for its youth academy, which constantly develops famous players. Benedikt Höwedes, Manuel Neuer and Mesut Özil, who won the World Cup with Germany in 2014, were formed in the Schalke 04 youth academy. Since 2011 the youth academy is called Knappenschmiede in reference to the mining industry that was very strong in the past in the area of Western Germany. A Knappe is a miner after completion of his apprenticeship.</s> |
Given these paragraphs about Large language models, when did LLMs emerge? | A large language model (LLM) is a language model consisting of a neural network with many parameters (typically billions of weights or more), trained on large quantities of unlabelled text using self-supervised learning. LLMs emerged around 2018 and perform well at a wide variety of tasks. This has shifted the focus of natural language processing research away from the previous paradigm of training specialized supervised models for specific tasks.
Properties
Though the term large language model has no formal definition, it often refers to deep learning models having a parameter count on the order of billions or more. LLMs are general purpose models which excel at a wide range of tasks, as opposed to being trained for one specific task (such as sentiment analysis, named entity recognition, or mathematical reasoning). The skill with which they accomplish tasks, and the range of tasks at which they are capable, seems to be a function of the amount of resources (data, parameter-size, computing power) devoted to them, in a way that is not dependent on additional breakthroughs in design.
Though trained on simple tasks along the lines of predicting the next word in a sentence, neural language models with sufficient training and parameter counts are found to capture much of the syntax and semantics of human language. In addition, large language models demonstrate considerable general knowledge about the world, and are able to "memorize" a great quantity of facts during training.
Hallucinations
Main article: Hallucination (artificial intelligence)
In artificial intelligence in general, and in large language models in particular, a "hallucination" is a confident response that does not seem to be justified by the model's training data.
Emergent abilities
On a number of natural language benchmarks involving tasks such as question answering, models perform no better than random chance until they reach a certain scale (in this case, measured by training computation), at which point their performance sharply increases. These are examples of emergent abilities.
Unpredictable abilities that have been observed in large language models but that were not present in simpler models (and that were not explicitly designed into the model) are usually called "emergent abilities". Researchers note that such abilities "cannot be predicted simply by extrapolating the performance of smaller models". These abilities are discovered rather than programmed-in or designed, in some cases only after the LLM has been publicly deployed. Hundreds of emergent abilities have been described. Examples include multi-step arithmetic, taking college-level exams, identifying the intended meaning of a word, chain-of-thought prompting, decoding the International Phonetic Alphabet, unscrambling a word’s letters, identifying offensive content in paragraphs of Hinglish (a combination of Hindi and English), and generating a similar English equivalent of Kiswahili proverbs.
Architecture and training
Large language models have most commonly used the transformer architecture, which, since 2018, has become the standard deep learning technique for sequential data (previously, recurrent architectures such as the LSTM were most common). LLMs are trained in an unsupervised manner on unannotated text. A left-to-right transformer is trained to maximize the probability assigned to the next word in the training data, given the previous context. Alternatively, an LLM may use a bidirectional transformer (as in the example of BERT), which assigns a probability distribution over words given access to both preceding and following context. In addition to the task of predicting the next word or "filling in the blanks", LLMs may be trained on auxiliary tasks which test their understanding of the data distribution such as Next Sentence Prediction (NSP), in which pairs of sentences are presented and the model must predict whether they appear side-by-side in the training corpus.
The earliest LLMs were trained on corpora having on the order of billions of words. The first model in OpenAI's GPT series was trained in 2018 on BookCorpus, consisting of 985 million words. In the same year, BERT was trained on a combination of BookCorpus and English Wikipedia, totalling 3.3 billion words. In the years since then, training corpora for LLMs have increased by orders of magnitude, reaching up to hundreds of billions or trillions of tokens.
LLMs are computationally expensive to train. A 2020 study estimated the cost of training a 1.5 billion parameter model (1-2 orders of magnitude smaller than the state of the art at the time) at $1.6 million.
A 2020 analysis found that neural language models' capability (as measured by training loss) increased smoothly in a power law relationship with number of parameters, quantity of training data, and computation used for training. These relationships were tested over a wide range of values (up to seven orders of magnitude) and no attenuation of the relationship was observed at the highest end of the range (including for network sizes up to trillions of parameters).
Application to downstream tasks
Between 2018 and 2020, the standard method for harnessing an LLM for a specific natural language processing (NLP) task was to fine tune the model with additional task-specific training. It has subsequently been found that more powerful LLMs such as GPT-3 can solve tasks without additional training via "prompting" techniques, in which the problem to be solved is presented to the model as a text prompt, possibly with some textual examples of similar problems and their solutions.
Fine-tuning
Main article: Fine-tuning (machine learning)
Fine-tuning is the practice of modifying an existing pretrained language model by training it (in a supervised fashion) on a specific task (e.g. sentiment analysis, named entity recognition, or part-of-speech tagging). It is a form of transfer learning. It generally involves the introduction of a new set of weights connecting the final layer of the language model to the output of the downstream task. The original weights of the language model may be "frozen", such that only the new layer of weights connecting them to the output are learned during training. Alternatively, the original weights may receive small updates (possibly with earlier layers frozen).
Prompting
See also: Prompt engineering and Few-shot learning (natural language processing)
In the prompting paradigm, popularized by GPT-3, the problem to be solved is formulated via a text prompt, which the model must solve by providing a completion (via inference). In "few-shot prompting", the prompt includes a small number of examples of similar (problem, solution) pairs. For example, a sentiment analysis task of labelling the sentiment of a movie review could be prompted as follows:
Review: This movie stinks.
Sentiment: negative
Review: This movie is fantastic!
Sentiment:
If the model outputs "positive", then it has correctly solved the task. In zero-shot prompting, no solve examples are provided. An example of a zero-shot prompt for the same sentiment analysis task would be "The sentiment associated with the movie review 'This movie is fantastic!' is".
Few-shot performance of LLMs has been shown to achieve competitive results on NLP tasks, sometimes surpassing prior state-of-the-art fine-tuning approaches. Examples of such NLP tasks are translation, question answering, cloze tasks, unscrambling words, and using a novel word in a sentence. The creation and optimisation of such prompts is called prompt engineering.
Instruction tuning
Instruction tuning is a form of fine-tuning designed to facilitate more natural and accurate zero-shot prompting interactions. Given a text input, a pretrained language model will generate a completion which matches the distribution of text on which it was trained. A naive language model given the prompt "Write an essay about the main themes of Hamlet." might provide a completion such as "A late penalty of 10% per day will be applied to submissions received after March 17." In instruction tuning, the language model is trained on many examples of tasks formulated as natural language instructions, along with appropriate responses. Various techniques for instruction tuning have been applied in practice. OpenAI's InstructGPT protocol involves supervised fine-tuning on a dataset of human-generated (prompt, response) pairs, followed by reinforcement learning from human feedback (RLHF), in which a reward function was learned based on a dataset of human preferences. Another technique, "self-instruct", fine-tunes the language model on a training set of examples which are themselves generated by an LLM (bootstrapped from a small initial set of human-generated examples).
https://en.wikipedia.org/wiki/Large_language_model | Around 2018. | closed_qa | ### Instruction: Given these paragraphs about Large language models, when did LLMs emerge?
### Context: A large language model (LLM) is a language model consisting of a neural network with many parameters (typically billions of weights or more), trained on large quantities of unlabelled text using self-supervised learning. LLMs emerged around 2018 and perform well at a wide variety of tasks. This has shifted the focus of natural language processing research away from the previous paradigm of training specialized supervised models for specific tasks.
Properties
Though the term large language model has no formal definition, it often refers to deep learning models having a parameter count on the order of billions or more. LLMs are general purpose models which excel at a wide range of tasks, as opposed to being trained for one specific task (such as sentiment analysis, named entity recognition, or mathematical reasoning). The skill with which they accomplish tasks, and the range of tasks at which they are capable, seems to be a function of the amount of resources (data, parameter-size, computing power) devoted to them, in a way that is not dependent on additional breakthroughs in design.
Though trained on simple tasks along the lines of predicting the next word in a sentence, neural language models with sufficient training and parameter counts are found to capture much of the syntax and semantics of human language. In addition, large language models demonstrate considerable general knowledge about the world, and are able to "memorize" a great quantity of facts during training.
Hallucinations
Main article: Hallucination (artificial intelligence)
In artificial intelligence in general, and in large language models in particular, a "hallucination" is a confident response that does not seem to be justified by the model's training data.
Emergent abilities
On a number of natural language benchmarks involving tasks such as question answering, models perform no better than random chance until they reach a certain scale (in this case, measured by training computation), at which point their performance sharply increases. These are examples of emergent abilities.
Unpredictable abilities that have been observed in large language models but that were not present in simpler models (and that were not explicitly designed into the model) are usually called "emergent abilities". Researchers note that such abilities "cannot be predicted simply by extrapolating the performance of smaller models". These abilities are discovered rather than programmed-in or designed, in some cases only after the LLM has been publicly deployed. Hundreds of emergent abilities have been described. Examples include multi-step arithmetic, taking college-level exams, identifying the intended meaning of a word, chain-of-thought prompting, decoding the International Phonetic Alphabet, unscrambling a word’s letters, identifying offensive content in paragraphs of Hinglish (a combination of Hindi and English), and generating a similar English equivalent of Kiswahili proverbs.
Architecture and training
Large language models have most commonly used the transformer architecture, which, since 2018, has become the standard deep learning technique for sequential data (previously, recurrent architectures such as the LSTM were most common). LLMs are trained in an unsupervised manner on unannotated text. A left-to-right transformer is trained to maximize the probability assigned to the next word in the training data, given the previous context. Alternatively, an LLM may use a bidirectional transformer (as in the example of BERT), which assigns a probability distribution over words given access to both preceding and following context. In addition to the task of predicting the next word or "filling in the blanks", LLMs may be trained on auxiliary tasks which test their understanding of the data distribution such as Next Sentence Prediction (NSP), in which pairs of sentences are presented and the model must predict whether they appear side-by-side in the training corpus.
The earliest LLMs were trained on corpora having on the order of billions of words. The first model in OpenAI's GPT series was trained in 2018 on BookCorpus, consisting of 985 million words. In the same year, BERT was trained on a combination of BookCorpus and English Wikipedia, totalling 3.3 billion words. In the years since then, training corpora for LLMs have increased by orders of magnitude, reaching up to hundreds of billions or trillions of tokens.
LLMs are computationally expensive to train. A 2020 study estimated the cost of training a 1.5 billion parameter model (1-2 orders of magnitude smaller than the state of the art at the time) at $1.6 million.
A 2020 analysis found that neural language models' capability (as measured by training loss) increased smoothly in a power law relationship with number of parameters, quantity of training data, and computation used for training. These relationships were tested over a wide range of values (up to seven orders of magnitude) and no attenuation of the relationship was observed at the highest end of the range (including for network sizes up to trillions of parameters).
Application to downstream tasks
Between 2018 and 2020, the standard method for harnessing an LLM for a specific natural language processing (NLP) task was to fine tune the model with additional task-specific training. It has subsequently been found that more powerful LLMs such as GPT-3 can solve tasks without additional training via "prompting" techniques, in which the problem to be solved is presented to the model as a text prompt, possibly with some textual examples of similar problems and their solutions.
Fine-tuning
Main article: Fine-tuning (machine learning)
Fine-tuning is the practice of modifying an existing pretrained language model by training it (in a supervised fashion) on a specific task (e.g. sentiment analysis, named entity recognition, or part-of-speech tagging). It is a form of transfer learning. It generally involves the introduction of a new set of weights connecting the final layer of the language model to the output of the downstream task. The original weights of the language model may be "frozen", such that only the new layer of weights connecting them to the output are learned during training. Alternatively, the original weights may receive small updates (possibly with earlier layers frozen).
Prompting
See also: Prompt engineering and Few-shot learning (natural language processing)
In the prompting paradigm, popularized by GPT-3, the problem to be solved is formulated via a text prompt, which the model must solve by providing a completion (via inference). In "few-shot prompting", the prompt includes a small number of examples of similar (problem, solution) pairs. For example, a sentiment analysis task of labelling the sentiment of a movie review could be prompted as follows:
Review: This movie stinks.
Sentiment: negative
Review: This movie is fantastic!
Sentiment:
If the model outputs "positive", then it has correctly solved the task. In zero-shot prompting, no solve examples are provided. An example of a zero-shot prompt for the same sentiment analysis task would be "The sentiment associated with the movie review 'This movie is fantastic!' is".
Few-shot performance of LLMs has been shown to achieve competitive results on NLP tasks, sometimes surpassing prior state-of-the-art fine-tuning approaches. Examples of such NLP tasks are translation, question answering, cloze tasks, unscrambling words, and using a novel word in a sentence. The creation and optimisation of such prompts is called prompt engineering.
Instruction tuning
Instruction tuning is a form of fine-tuning designed to facilitate more natural and accurate zero-shot prompting interactions. Given a text input, a pretrained language model will generate a completion which matches the distribution of text on which it was trained. A naive language model given the prompt "Write an essay about the main themes of Hamlet." might provide a completion such as "A late penalty of 10% per day will be applied to submissions received after March 17." In instruction tuning, the language model is trained on many examples of tasks formulated as natural language instructions, along with appropriate responses. Various techniques for instruction tuning have been applied in practice. OpenAI's InstructGPT protocol involves supervised fine-tuning on a dataset of human-generated (prompt, response) pairs, followed by reinforcement learning from human feedback (RLHF), in which a reward function was learned based on a dataset of human preferences. Another technique, "self-instruct", fine-tunes the language model on a training set of examples which are themselves generated by an LLM (bootstrapped from a small initial set of human-generated examples).
https://en.wikipedia.org/wiki/Large_language_model
### Answer: Around 2018.</s> |
Give an example of places where astronauts are trained? | Meteor Crater is a popular tourist destination with roughly 270,000 visitors per year. The crater is owned by a family company, the Barringer Crater Company. Meteor Crater is an important educational and research site. It was used to train Apollo astronauts and continues to be an active training site for astronauts. The Meteor Crater Visitor Center sits on the north rim of the crater. It features interactive exhibits and displays about meteorites and asteroids, space, the Solar System, and comets including the American Astronaut Wall of Fame and such artifacts on display as an Apollo boilerplate command module (BP-29), a 1,406 lb (638 kg) meteorite found in the area, and meteorite specimens from Meteor Crater that can be touched. Formerly known as the Museum of Astrogeology, the Visitor Center includes a Discovery Center & Space Museum, a movie theater, a gift shop, and observation areas with views inside the rim of the crater. Guided tours of the rim are offered daily, weather permitting. | Meteor Crater a tourist destination is one of the places where astronauts are trained. | closed_qa | ### Instruction: Give an example of places where astronauts are trained?
### Context: Meteor Crater is a popular tourist destination with roughly 270,000 visitors per year. The crater is owned by a family company, the Barringer Crater Company. Meteor Crater is an important educational and research site. It was used to train Apollo astronauts and continues to be an active training site for astronauts. The Meteor Crater Visitor Center sits on the north rim of the crater. It features interactive exhibits and displays about meteorites and asteroids, space, the Solar System, and comets including the American Astronaut Wall of Fame and such artifacts on display as an Apollo boilerplate command module (BP-29), a 1,406 lb (638 kg) meteorite found in the area, and meteorite specimens from Meteor Crater that can be touched. Formerly known as the Museum of Astrogeology, the Visitor Center includes a Discovery Center & Space Museum, a movie theater, a gift shop, and observation areas with views inside the rim of the crater. Guided tours of the rim are offered daily, weather permitting.
### Answer: Meteor Crater a tourist destination is one of the places where astronauts are trained.</s> |
Given this paragraph about Arlington, Virginia, what are the 3 public high schools in Arlington? | Arlington Public Schools operates the county's public K-12 education system of 22 elementary schools; 6 middle schools (Dorothy Hamm Middle School, Gunston Middle School, Kenmore Middle School, Swanson Middle School, Thomas Jefferson Middle School, and Williamsburg Middle School); and 3 public high schools (Wakefield High School, Washington-Liberty High School, and Yorktown High School). H-B Woodlawn and Arlington Tech are alternative public schools. Arlington County spends about half of its local revenues on education. For the FY2013 budget, 83 percent of funding was from local revenues, and 12 percent from the state. Per pupil expenditures are expected to average $18,700, well above its neighbors, Fairfax County ($13,600) and Montgomery County ($14,900). | The 3 public high schools in Arlington, Va are Wakefield High School, Washington-Liberty High School, and Yorktown High School. | closed_qa | ### Instruction: Given this paragraph about Arlington, Virginia, what are the 3 public high schools in Arlington?
### Context: Arlington Public Schools operates the county's public K-12 education system of 22 elementary schools; 6 middle schools (Dorothy Hamm Middle School, Gunston Middle School, Kenmore Middle School, Swanson Middle School, Thomas Jefferson Middle School, and Williamsburg Middle School); and 3 public high schools (Wakefield High School, Washington-Liberty High School, and Yorktown High School). H-B Woodlawn and Arlington Tech are alternative public schools. Arlington County spends about half of its local revenues on education. For the FY2013 budget, 83 percent of funding was from local revenues, and 12 percent from the state. Per pupil expenditures are expected to average $18,700, well above its neighbors, Fairfax County ($13,600) and Montgomery County ($14,900).
### Answer: The 3 public high schools in Arlington, Va are Wakefield High School, Washington-Liberty High School, and Yorktown High School.</s> |
How can the dialogue be described in this film? | Wilcox is a Canadian drama film, directed by Denis Côté and released in 2019. Told entirely without dialogue, the film tells the story of Wilcox (Guillaume Tremblay), a mysterious drifter travelling in an apparent search for adventure. Although he does interact with other characters in the film, the dialogue taking place in the story is not heard by the audience. | There is no dialogue. | closed_qa | ### Instruction: How can the dialogue be described in this film?
### Context: Wilcox is a Canadian drama film, directed by Denis Côté and released in 2019. Told entirely without dialogue, the film tells the story of Wilcox (Guillaume Tremblay), a mysterious drifter travelling in an apparent search for adventure. Although he does interact with other characters in the film, the dialogue taking place in the story is not heard by the audience.
### Answer: There is no dialogue.</s> |
Given a reference text about Hackpad, what company acquired it? | Hackpad was a web-based collaborative real-time text editor forked from Etherpad.
It was used as the company wikis by multiple prominent startups of the 2010s, such as Airbnb, Stripe, and Upworthy.
In April 2014, Hackpad was acquired by Dropbox. In April 2015, it was announced that Hackpad would be released as open source and source code was published on GitHub in August 2015, under the Apache license 2.0. On April 25, 2017, Hackpad announced that it is to shut down on July 19, 2017, permanently migrating to Dropbox Paper. | Hackpad was acquired by Dropbox in April 2014. | closed_qa | ### Instruction: Given a reference text about Hackpad, what company acquired it?
### Context: Hackpad was a web-based collaborative real-time text editor forked from Etherpad.
It was used as the company wikis by multiple prominent startups of the 2010s, such as Airbnb, Stripe, and Upworthy.
In April 2014, Hackpad was acquired by Dropbox. In April 2015, it was announced that Hackpad would be released as open source and source code was published on GitHub in August 2015, under the Apache license 2.0. On April 25, 2017, Hackpad announced that it is to shut down on July 19, 2017, permanently migrating to Dropbox Paper.
### Answer: Hackpad was acquired by Dropbox in April 2014.</s> |
Based on this reference text about bull sharks, why can bull sharks live in both salt and fresh water? | The bull shark (Carcharhinus leucas), also known as the Zambezi shark (informally zambi) in Africa and Lake Nicaragua shark in Nicaragua, is a species of requiem shark commonly found worldwide in warm, shallow waters along coasts and in rivers. It is known for its aggressive nature, and presence mainly in warm, shallow brackish and freshwater systems including estuaries and (usually) lower reaches of rivers.
Bull sharks are euryhaline and can thrive in both salt and fresh water. They are known to travel far up rivers, and have been known to travel up the Mississippi River as far as Alton, Illinois, about 1,100 kilometres (700 mi) from the ocean, but few freshwater interactions with humans have been recorded. Larger-sized bull sharks are probably responsible for the majority of nearshore shark attacks, including many incidents of shark bites attributed to other species.
Unlike the river sharks of the genus Glyphis, bull sharks are not true freshwater sharks, despite their ability to survive in freshwater habitats. | Bull sharks can live in both salt and fresh water because they are euryhaline. | closed_qa | ### Instruction: Based on this reference text about bull sharks, why can bull sharks live in both salt and fresh water?
### Context: The bull shark (Carcharhinus leucas), also known as the Zambezi shark (informally zambi) in Africa and Lake Nicaragua shark in Nicaragua, is a species of requiem shark commonly found worldwide in warm, shallow waters along coasts and in rivers. It is known for its aggressive nature, and presence mainly in warm, shallow brackish and freshwater systems including estuaries and (usually) lower reaches of rivers.
Bull sharks are euryhaline and can thrive in both salt and fresh water. They are known to travel far up rivers, and have been known to travel up the Mississippi River as far as Alton, Illinois, about 1,100 kilometres (700 mi) from the ocean, but few freshwater interactions with humans have been recorded. Larger-sized bull sharks are probably responsible for the majority of nearshore shark attacks, including many incidents of shark bites attributed to other species.
Unlike the river sharks of the genus Glyphis, bull sharks are not true freshwater sharks, despite their ability to survive in freshwater habitats.
### Answer: Bull sharks can live in both salt and fresh water because they are euryhaline.</s> |
Given this paragraph about computer engineering, what is RISC? | In computer engineering, a reduced instruction set computer (RISC) is a computer architecture designed to simplify the individual instructions given to the computer to accomplish tasks. Compared to the instructions given to a complex instruction set computer (CISC), a RISC computer might require more instructions (more code) in order to accomplish a task because the individual instructions are written in simpler code. The goal is to offset the need to process more instructions by increasing the speed of each instruction, in particular by implementing an instruction pipeline, which may be simpler given simpler instructions. | RISC stands for reduced instruction set computer. It is a computer architecture designed to simplify the individual instructions given to the computer to accomplish tasks. | closed_qa | ### Instruction: Given this paragraph about computer engineering, what is RISC?
### Context: In computer engineering, a reduced instruction set computer (RISC) is a computer architecture designed to simplify the individual instructions given to the computer to accomplish tasks. Compared to the instructions given to a complex instruction set computer (CISC), a RISC computer might require more instructions (more code) in order to accomplish a task because the individual instructions are written in simpler code. The goal is to offset the need to process more instructions by increasing the speed of each instruction, in particular by implementing an instruction pipeline, which may be simpler given simpler instructions.
### Answer: RISC stands for reduced instruction set computer. It is a computer architecture designed to simplify the individual instructions given to the computer to accomplish tasks.</s> |
Is Belgrandia varica found in Europe or Australia? | Belgrandia varica was previously considered to be extinct, however it has been classified as Critically Endangered (Possibly Extinct) by IUCN because it might still be present in a small spring that has been overlooked during previous surveys.
This species is endemic to France. | Belgrandia varica is endemic to France, so therefore it is found in Europe. | closed_qa | ### Instruction: Is Belgrandia varica found in Europe or Australia?
### Context: Belgrandia varica was previously considered to be extinct, however it has been classified as Critically Endangered (Possibly Extinct) by IUCN because it might still be present in a small spring that has been overlooked during previous surveys.
This species is endemic to France.
### Answer: Belgrandia varica is endemic to France, so therefore it is found in Europe.</s> |
Given the information provided about hottest chili pepper, which is the hottest naturally grown chili pepper in the world? | Especially among growers in the US, the UK, and Australia, there has been a competition since the 1990s to grow the hottest chili pepper. Chili pepper species and cultivars registering over 1,000,000 Scoville Heat units (SHU) are called "super-hots". Past Guinness World Record holders (in increasing order of hotness) include the ghost pepper, Infinity chili, Trinidad Moruga scorpion, Naga Viper pepper, and Trinidad Scorpion Butch T. The current record holder, declared in 2017, is the Carolina Reaper, at more than 1.6 million SHU. | Although Carolina Reaper currently holds the Guinness World Record for the hottest chili pepper, it is not the hottest chili pepper that is cultivated naturally. The Ghost Pepper, also known as Bhut Jholokia, is the spiciest chili pepper in the world that is grown naturally. It is most commonly found in Bangladesh and northeastern India. This pepper is frequently referred to as the "ghost pepper" in the West since "bhut" means "ghost" in the Assamese language. These peppers have thin, easily tearing, dented skin.
A ghost pepper and an Ed Currie-bred Carolina Reaper can be compared because both are extremely fiery and have a sweet, fruity flavor. The Carolina Reaper has more than twice the heat of the ghost pepper when it is at its fiercest, despite the fact that both peppers are extremely spicy. Ghost peppers have a maximum SHU of 1,041,427, while the Carolina Reaper has a maximum SHU of 2.2 million.
Ghost peppers have a potent, sweet-fruity chili flavor. The first 30 to 45 seconds do not experience any heat. After the heat sets in, anticipate to experience shortness of breath, hiccups, perspiration, and watery eyes. The burning typically worsens over 10 to 15 minutes before going away after 30 to 40 minutes. | closed_qa | ### Instruction: Given the information provided about hottest chili pepper, which is the hottest naturally grown chili pepper in the world?
### Context: Especially among growers in the US, the UK, and Australia, there has been a competition since the 1990s to grow the hottest chili pepper. Chili pepper species and cultivars registering over 1,000,000 Scoville Heat units (SHU) are called "super-hots". Past Guinness World Record holders (in increasing order of hotness) include the ghost pepper, Infinity chili, Trinidad Moruga scorpion, Naga Viper pepper, and Trinidad Scorpion Butch T. The current record holder, declared in 2017, is the Carolina Reaper, at more than 1.6 million SHU.
### Answer: Although Carolina Reaper currently holds the Guinness World Record for the hottest chili pepper, it is not the hottest chili pepper that is cultivated naturally. The Ghost Pepper, also known as Bhut Jholokia, is the spiciest chili pepper in the world that is grown naturally. It is most commonly found in Bangladesh and northeastern India. This pepper is frequently referred to as the "ghost pepper" in the West since "bhut" means "ghost" in the Assamese language. These peppers have thin, easily tearing, dented skin.
A ghost pepper and an Ed Currie-bred Carolina Reaper can be compared because both are extremely fiery and have a sweet, fruity flavor. The Carolina Reaper has more than twice the heat of the ghost pepper when it is at its fiercest, despite the fact that both peppers are extremely spicy. Ghost peppers have a maximum SHU of 1,041,427, while the Carolina Reaper has a maximum SHU of 2.2 million.
Ghost peppers have a potent, sweet-fruity chili flavor. The first 30 to 45 seconds do not experience any heat. After the heat sets in, anticipate to experience shortness of breath, hiccups, perspiration, and watery eyes. The burning typically worsens over 10 to 15 minutes before going away after 30 to 40 minutes.</s> |
Who designed Washington D.C. and what are some interesting attributes about the city? | The plan specified that most streets would be laid out in a grid. To form the grid, some streets (later named for letters of the alphabet) would travel in an east–west direction, while others (named for numbers) would travel in a north–south direction. Broader diagonal grand avenues, later named after the states of the Union, crossed the north–south-east/west grid. These "grand avenues" intersected with the north–south and east–west streets at circles and rectangular plazas that would later honor notable Americans and provide open space. | Washington DC was designed by Major Pierre Charles L'Enfant at the request of George Washington. L'Enfant was a civil engineer by training, from France, and based his basic design for DC on the streets of Paris. DC is laid out as a grid, with east-west streets named alphabetically, starting with the letters themselves, and adding syllables as the streets went further out from the city center. The north-south streets are numbered, increasing as they radiate from the Capitol. At the intersection of the center-most streets are named for the direction as they radiate from the Capitol, i.e. North Capitol. However, there is no West Capitol street, as that is the prominent plazas known as the mall. Diagonally across the grid are streets named after the states and those state streets intersect in circles named after prominent Americans with plazas and open spaces. | closed_qa | ### Instruction: Who designed Washington D.C. and what are some interesting attributes about the city?
### Context: The plan specified that most streets would be laid out in a grid. To form the grid, some streets (later named for letters of the alphabet) would travel in an east–west direction, while others (named for numbers) would travel in a north–south direction. Broader diagonal grand avenues, later named after the states of the Union, crossed the north–south-east/west grid. These "grand avenues" intersected with the north–south and east–west streets at circles and rectangular plazas that would later honor notable Americans and provide open space.
### Answer: Washington DC was designed by Major Pierre Charles L'Enfant at the request of George Washington. L'Enfant was a civil engineer by training, from France, and based his basic design for DC on the streets of Paris. DC is laid out as a grid, with east-west streets named alphabetically, starting with the letters themselves, and adding syllables as the streets went further out from the city center. The north-south streets are numbered, increasing as they radiate from the Capitol. At the intersection of the center-most streets are named for the direction as they radiate from the Capitol, i.e. North Capitol. However, there is no West Capitol street, as that is the prominent plazas known as the mall. Diagonally across the grid are streets named after the states and those state streets intersect in circles named after prominent Americans with plazas and open spaces.</s> |
Based on the provided text, place the following books in chronological order:
The Fox in the Attic, In Hazard: A Sea Story, A High Wind in Jamaica, and The Wooden Shepherdess | "The Fox in the Attic" was originally published in 1961 by Chatto & Windus: London as v. 1 of The Human Predicament trilogy, and then in the United States by Harper & Brothers: New York. This was 23 years after Hughes's previous novel, In Hazard: A Sea Story, and 33 years after A High Wind in Jamaica, which was a best seller in the United Kingdom and America.It was published the following year in Sweden (Stockholm: Norstedt) as Räven på vinden.
The second novel in The Human Predicament trilogy, The Wooden Shepherdess, was published in 1973 by Chatto & Windus: London; it carries on the story to 1934 and the Night of the Long Knives. The third and final novel was left unfinished, but the completed twelve chapters were included in the 2000 New York Review of Books edition of The Wooden Shepherdess. | The order of the books are as follows:
1) A High Wind in Jamaica
2) In Hazard: A Sea Story
3) The Fox in the Attic
4) The Wooden Shepherdess | closed_qa | ### Instruction: Based on the provided text, place the following books in chronological order:
The Fox in the Attic, In Hazard: A Sea Story, A High Wind in Jamaica, and The Wooden Shepherdess
### Context: "The Fox in the Attic" was originally published in 1961 by Chatto & Windus: London as v. 1 of The Human Predicament trilogy, and then in the United States by Harper & Brothers: New York. This was 23 years after Hughes's previous novel, In Hazard: A Sea Story, and 33 years after A High Wind in Jamaica, which was a best seller in the United Kingdom and America.It was published the following year in Sweden (Stockholm: Norstedt) as Räven på vinden.
The second novel in The Human Predicament trilogy, The Wooden Shepherdess, was published in 1973 by Chatto & Windus: London; it carries on the story to 1934 and the Night of the Long Knives. The third and final novel was left unfinished, but the completed twelve chapters were included in the 2000 New York Review of Books edition of The Wooden Shepherdess.
### Answer: The order of the books are as follows:
1) A High Wind in Jamaica
2) In Hazard: A Sea Story
3) The Fox in the Attic
4) The Wooden Shepherdess</s> |
Given a reference text about Mikel Artetxe Guezuraga, tell me when he turned professional and what his biggest wins are. | Mikel Artetxe Guezuraga (born 24 September 1976) is a Spanish former road bicycle racer, who rode professionally between 1999 and 2007 for the Euskaltel–Euskadi, 3 Molinos Resort and Fuerteventura–Canarias teams.
Career
He turned professional in 1999 with Euskaltel–Euskadi, where he stayed for seven seasons. In his time with Euskaltel–Euskadi, Artetxe took two stages and the overall victory in the GP Jornal de Noticias in 2000, a stage victory in the 2001 Vuelta a Andalucía and a stage victory in the 2002 Troféu Joaquim Agostinho.
At the start of the 2006 season, Artetxe moved a division down to the newly formed 3 Molinos Resort team. Here he had the biggest wins of his career, with a stage win in the Vuelta a Asturias and the sprints classification in the Troféu Joaquim Agostinho. With the rapid demise of 3 Molinos Resort, Artetxe moved to the newly formed Fuerteventura–Canarias team for 2007. | Mikel Artetxe Guezuraga turned professional in 1999 and had the biggest wins of his career in 2006 with a stage win in the Vuelta a Asturias and the sprints classification in the Troféu Joaquim Agostinho. | closed_qa | ### Instruction: Given a reference text about Mikel Artetxe Guezuraga, tell me when he turned professional and what his biggest wins are.
### Context: Mikel Artetxe Guezuraga (born 24 September 1976) is a Spanish former road bicycle racer, who rode professionally between 1999 and 2007 for the Euskaltel–Euskadi, 3 Molinos Resort and Fuerteventura–Canarias teams.
Career
He turned professional in 1999 with Euskaltel–Euskadi, where he stayed for seven seasons. In his time with Euskaltel–Euskadi, Artetxe took two stages and the overall victory in the GP Jornal de Noticias in 2000, a stage victory in the 2001 Vuelta a Andalucía and a stage victory in the 2002 Troféu Joaquim Agostinho.
At the start of the 2006 season, Artetxe moved a division down to the newly formed 3 Molinos Resort team. Here he had the biggest wins of his career, with a stage win in the Vuelta a Asturias and the sprints classification in the Troféu Joaquim Agostinho. With the rapid demise of 3 Molinos Resort, Artetxe moved to the newly formed Fuerteventura–Canarias team for 2007.
### Answer: Mikel Artetxe Guezuraga turned professional in 1999 and had the biggest wins of his career in 2006 with a stage win in the Vuelta a Asturias and the sprints classification in the Troféu Joaquim Agostinho.</s> |
Given a reference text about Magic the Gathering decks, please suggest cards I should consider in a Midrange deck. | Most classifications of Magic the Gathering decks begin from one of four major strategies: aggro, control, combo and midrange.
Aggro
Aggro (short for "aggressive") decks attempt to reduce their opponents from 20 life to 0 life as quickly as possible, rather than emphasize a long-term game plan. Aggro decks focus on converting their cards into damage; they prefer to engage in a race for tempo rather than a card advantage-based attrition war. Aggro generally relies upon creatures as its accumulative source of damage. Aggro decks can quickly overwhelm unprepared opponents and proceed to eke out the last bit of damage they need to end the game. Aggro decks also generally have access to disruptive elements, which can inhibit the opponent's attempts to respond.
Example cards: Savannah Lions, Bitterblossom, Lightning Bolt, Rogue Elephant, Incinerate
Example decks:
White Weenie, which uses small, efficient creatures such as Savannah Lions, Icatian Javelineers, and Mother of Runes
Affinity, which uses the affinity mechanic and large numbers of artifacts to quickly play spells such as Thoughtcast and Frogmite, while efficiently dealing damage using Disciple of the Vault and Arcbound Ravager.
Zoo, which uses low-cost, high power creatures such as Tarmogoyf and Wild Nacatl to kill the opponent quickly.
Sligh, which utilizes its mana as efficiently as possible to kill the opponent quickly, using low-cost cards such as Jackal Pup and Lightning Bolt.
Suicide Black, which uses efficient but dangerous cards that cost life such as Thoughtseize, Dark Confidant, Grim Tutor, and Bitterblossom. Suicide Black epitomizes Black's philosophy—win at all costs—and treats even its life total as an expendable resource.
Control
Control decks avoid racing. They attempt to slow the game down by executing an attrition plan. As the game progresses, control decks are able to take advantage of their slower, more powerful, cards. The primary strength of control decks is their ability to devalue the opponent’s cards. They do this in four ways:
Answering threats at a reduced cost. Given the opportunity, Control decks can gain card advantage by answering multiple threats with one spell ("clearing"/"wiping" the board), stopping expensive threats with cheaper spells, and drawing multiple cards or forcing the opponent to discard multiple cards with one spell.
Not playing threats to be answered. By playing few proactive spells of their own, control decks gain virtual card advantage by reducing the usefulness of opposing removal cards.
Disrupting synergies. Even if control decks do not deal with every threat directly, they can leave out whichever ones stand poorly on their own; e.g., an enchantment which gives a bonus to creatures will never need attention if all enemy creatures are quickly neutralized.
Dragging the game out past opposing preparations. An opponent's faster, efficient cards will become less effective over time.
Example cards: Force of Will, Duress, Wrath of God, Pernicious Deed, Void
Example decks:
Tezzeret Control, which controls the game using counterspells such as Mana Drain, builds card advantage with cards such as Dark Confidant, and ends the game using Tezzeret the Seeker to find Time Vault and activate it for infinite turns.
Mono Blue Control, which uses a heavy suite of counterspells alongside card-drawing such as Thirst for Knowledge, removal such as Echoing Truth, and a win condition such as Tezzeret the Seeker. This class of deck is nicknamed "Draw-Go," because most of its players' spells are instants designed to be played during his or her opponents' turns.
Blue-White Control, which is similar to Mono-Blue Control, but features more board-control cards such as Wrath of God, and Pacifism.
Psychatog, supplemented by card-drawing like Fact or Fiction and a number of disruptive spells.
Astral Slide, which uses large numbers of cards with cycling, including those with added benefits such as Eternal Dragon and Slice and Dice, to power Astral Slide and Lightning Rift.
Mono-Black Control, which uses removal spells such as Innocent Blood and Barter in Blood to control the board, and Cabal Coffers to kill the opponent with spells such as Consume Spirit. It can also use cards like Underworld Dreams to put the opponent on a timer.
The Deck, which uses card drawing such as Fact or Fiction and deck searching cards such as Demonic Tutor to find powerful cards that are highly effective against particular strategies (such as The Abyss, Diabolic Edict, and Balance), alongside a Blue base of counterspells to control the game and obtain an insurmountable lead.
Combo
Combo decks use the interaction of two or more cards (a "combination") to create a powerful effect that either wins the game immediately or creates a situation that subsequently leads to a win. Combo decks value consistency, speed, and resilience: the deck should be reliable enough to produce the combo on a regular basis, the deck should be able to use the combo fast enough to win before the opponent, and the deck should be able to withstand disruption and still win.
Many decks have smaller, combo-like interactions between their cards, which is better described as synergy.
Example cards: Flash, Tendrils of Agony, Empty the Warrens, Aluren, Painter's Servant.
Example decks:
The Perfect Storm, which utilizes Dark Ritual and artifact mana to draw cards and fuel a lethal Tendrils of Agony, all the while disrupting the opponent with Duress and Force of Will.
Painter Combo, which uses Painter's Servant and chooses Blue to permit Red Elemental Blast to destroy any permanent or counter any spell, while also allowing Grindstone to put the opponent's entire library into their graveyard.
Worldgorger Dragon Combo, which revolves around the infinite loop triggered when Worldgorger Dragon is animated from the graveyard using an enchantment such as Animate Dead. The loop generates mana and card drawing which is then used to end the game.
Belcher Combo, which uses free and efficient mana acceleration to play and activate Goblin Charbelcher, preferably on the first turn. Because the deck has two or fewer lands, one activation of Goblin Charbelcher will almost always kill the opponent.
Hulk-Flash, which is dedicated to casting Flash and putting a Protean Hulk into play and then into the graveyard, allowing the player to find a combination of creatures which will kill the opponent instantly. Summoner's Pact and Merchant Scroll are used to find the combo pieces, while Force of Will and Pact of Negation protect the combo.
Steel City Vault, which uses "Draw 7" spells such as Timetwister to rapidly assemble the Time Vault-Voltaic Key combo for infinite turns. The deck also uses several cards such as Force of Will and Ancient Grudge to efficiently deal with Null Rod, the most effective answer to the Vault-Key combo.
Hexmage Depths, which uses Vampire Hexmage to inexpensively remove the counters from Dark Depths and put a flying, indestructible 20/20 creature token into play as early as the first turn.
Midrange
A typical midrange deck has an early game plan of mana ramp and control, but begins to play threats once it reaches four to six mana. A midrange deck will often seek to play a reactive, attrition-based game against aggro decks and a more proactive, tempo-based game against control decks. Colloquially, this is referred to as "going bigger" than aggro and "getting in under" control.
Example cards: Huntmaster of the Fells Thragtusk, Sakura-Tribe Elder
Example decks:
Jund Midrange (BRG), a powerful and flexible deck with virtually zero bad matchups thanks to the access of the most powerful cards that each color can offer: black gives Liliana of the Veil and powerful discard cards like Thoughtseize and Inquisition of Kozilek, red a reliable removal in Lightning Bolt and the green some of the best creatures like Tarmogoyf and Scavenging Ooze.
Abzan Midrange (WBG), which is similar to Jund, but trades speed for powerful white based cards like Path to Exile, Lingering Souls and Siege Rhino.
Jeskai Midrange (UWR), which has more control elements, using Sphinx's Revelation to draw into a very large number of cards and Assemble the Legion to end up swarming the board with tokens.
Temur Emerge (GUR), which leverages the Emerge mechanic introduced in Eldritch Moon to efficiently use ramp creatures such as Pilgrim's Eye and Primal Druid for their land-smoothing abilities while sacrificing them to Emerge board-stalling threats such as Elder Deep-Fiend as early as turn 4, also filling the graveyard to make Emrakul, the Promised End playable on turn 7.
Tron, which tries to build the triplet of lands known as "Urzatron" (Urza's Tower, Urza's Mine and Urza's Power Plant) as quickly as possible and then uses the massive amount of mana to play powerful cards like Karn Liberated and Wurmcoil Engine as early as turn 3. | You should consider Huntmaster of the Fells Thragtusk and Sakura-Tribe Elder | closed_qa | ### Instruction: Given a reference text about Magic the Gathering decks, please suggest cards I should consider in a Midrange deck.
### Context: Most classifications of Magic the Gathering decks begin from one of four major strategies: aggro, control, combo and midrange.
Aggro
Aggro (short for "aggressive") decks attempt to reduce their opponents from 20 life to 0 life as quickly as possible, rather than emphasize a long-term game plan. Aggro decks focus on converting their cards into damage; they prefer to engage in a race for tempo rather than a card advantage-based attrition war. Aggro generally relies upon creatures as its accumulative source of damage. Aggro decks can quickly overwhelm unprepared opponents and proceed to eke out the last bit of damage they need to end the game. Aggro decks also generally have access to disruptive elements, which can inhibit the opponent's attempts to respond.
Example cards: Savannah Lions, Bitterblossom, Lightning Bolt, Rogue Elephant, Incinerate
Example decks:
White Weenie, which uses small, efficient creatures such as Savannah Lions, Icatian Javelineers, and Mother of Runes
Affinity, which uses the affinity mechanic and large numbers of artifacts to quickly play spells such as Thoughtcast and Frogmite, while efficiently dealing damage using Disciple of the Vault and Arcbound Ravager.
Zoo, which uses low-cost, high power creatures such as Tarmogoyf and Wild Nacatl to kill the opponent quickly.
Sligh, which utilizes its mana as efficiently as possible to kill the opponent quickly, using low-cost cards such as Jackal Pup and Lightning Bolt.
Suicide Black, which uses efficient but dangerous cards that cost life such as Thoughtseize, Dark Confidant, Grim Tutor, and Bitterblossom. Suicide Black epitomizes Black's philosophy—win at all costs—and treats even its life total as an expendable resource.
Control
Control decks avoid racing. They attempt to slow the game down by executing an attrition plan. As the game progresses, control decks are able to take advantage of their slower, more powerful, cards. The primary strength of control decks is their ability to devalue the opponent’s cards. They do this in four ways:
Answering threats at a reduced cost. Given the opportunity, Control decks can gain card advantage by answering multiple threats with one spell ("clearing"/"wiping" the board), stopping expensive threats with cheaper spells, and drawing multiple cards or forcing the opponent to discard multiple cards with one spell.
Not playing threats to be answered. By playing few proactive spells of their own, control decks gain virtual card advantage by reducing the usefulness of opposing removal cards.
Disrupting synergies. Even if control decks do not deal with every threat directly, they can leave out whichever ones stand poorly on their own; e.g., an enchantment which gives a bonus to creatures will never need attention if all enemy creatures are quickly neutralized.
Dragging the game out past opposing preparations. An opponent's faster, efficient cards will become less effective over time.
Example cards: Force of Will, Duress, Wrath of God, Pernicious Deed, Void
Example decks:
Tezzeret Control, which controls the game using counterspells such as Mana Drain, builds card advantage with cards such as Dark Confidant, and ends the game using Tezzeret the Seeker to find Time Vault and activate it for infinite turns.
Mono Blue Control, which uses a heavy suite of counterspells alongside card-drawing such as Thirst for Knowledge, removal such as Echoing Truth, and a win condition such as Tezzeret the Seeker. This class of deck is nicknamed "Draw-Go," because most of its players' spells are instants designed to be played during his or her opponents' turns.
Blue-White Control, which is similar to Mono-Blue Control, but features more board-control cards such as Wrath of God, and Pacifism.
Psychatog, supplemented by card-drawing like Fact or Fiction and a number of disruptive spells.
Astral Slide, which uses large numbers of cards with cycling, including those with added benefits such as Eternal Dragon and Slice and Dice, to power Astral Slide and Lightning Rift.
Mono-Black Control, which uses removal spells such as Innocent Blood and Barter in Blood to control the board, and Cabal Coffers to kill the opponent with spells such as Consume Spirit. It can also use cards like Underworld Dreams to put the opponent on a timer.
The Deck, which uses card drawing such as Fact or Fiction and deck searching cards such as Demonic Tutor to find powerful cards that are highly effective against particular strategies (such as The Abyss, Diabolic Edict, and Balance), alongside a Blue base of counterspells to control the game and obtain an insurmountable lead.
Combo
Combo decks use the interaction of two or more cards (a "combination") to create a powerful effect that either wins the game immediately or creates a situation that subsequently leads to a win. Combo decks value consistency, speed, and resilience: the deck should be reliable enough to produce the combo on a regular basis, the deck should be able to use the combo fast enough to win before the opponent, and the deck should be able to withstand disruption and still win.
Many decks have smaller, combo-like interactions between their cards, which is better described as synergy.
Example cards: Flash, Tendrils of Agony, Empty the Warrens, Aluren, Painter's Servant.
Example decks:
The Perfect Storm, which utilizes Dark Ritual and artifact mana to draw cards and fuel a lethal Tendrils of Agony, all the while disrupting the opponent with Duress and Force of Will.
Painter Combo, which uses Painter's Servant and chooses Blue to permit Red Elemental Blast to destroy any permanent or counter any spell, while also allowing Grindstone to put the opponent's entire library into their graveyard.
Worldgorger Dragon Combo, which revolves around the infinite loop triggered when Worldgorger Dragon is animated from the graveyard using an enchantment such as Animate Dead. The loop generates mana and card drawing which is then used to end the game.
Belcher Combo, which uses free and efficient mana acceleration to play and activate Goblin Charbelcher, preferably on the first turn. Because the deck has two or fewer lands, one activation of Goblin Charbelcher will almost always kill the opponent.
Hulk-Flash, which is dedicated to casting Flash and putting a Protean Hulk into play and then into the graveyard, allowing the player to find a combination of creatures which will kill the opponent instantly. Summoner's Pact and Merchant Scroll are used to find the combo pieces, while Force of Will and Pact of Negation protect the combo.
Steel City Vault, which uses "Draw 7" spells such as Timetwister to rapidly assemble the Time Vault-Voltaic Key combo for infinite turns. The deck also uses several cards such as Force of Will and Ancient Grudge to efficiently deal with Null Rod, the most effective answer to the Vault-Key combo.
Hexmage Depths, which uses Vampire Hexmage to inexpensively remove the counters from Dark Depths and put a flying, indestructible 20/20 creature token into play as early as the first turn.
Midrange
A typical midrange deck has an early game plan of mana ramp and control, but begins to play threats once it reaches four to six mana. A midrange deck will often seek to play a reactive, attrition-based game against aggro decks and a more proactive, tempo-based game against control decks. Colloquially, this is referred to as "going bigger" than aggro and "getting in under" control.
Example cards: Huntmaster of the Fells Thragtusk, Sakura-Tribe Elder
Example decks:
Jund Midrange (BRG), a powerful and flexible deck with virtually zero bad matchups thanks to the access of the most powerful cards that each color can offer: black gives Liliana of the Veil and powerful discard cards like Thoughtseize and Inquisition of Kozilek, red a reliable removal in Lightning Bolt and the green some of the best creatures like Tarmogoyf and Scavenging Ooze.
Abzan Midrange (WBG), which is similar to Jund, but trades speed for powerful white based cards like Path to Exile, Lingering Souls and Siege Rhino.
Jeskai Midrange (UWR), which has more control elements, using Sphinx's Revelation to draw into a very large number of cards and Assemble the Legion to end up swarming the board with tokens.
Temur Emerge (GUR), which leverages the Emerge mechanic introduced in Eldritch Moon to efficiently use ramp creatures such as Pilgrim's Eye and Primal Druid for their land-smoothing abilities while sacrificing them to Emerge board-stalling threats such as Elder Deep-Fiend as early as turn 4, also filling the graveyard to make Emrakul, the Promised End playable on turn 7.
Tron, which tries to build the triplet of lands known as "Urzatron" (Urza's Tower, Urza's Mine and Urza's Power Plant) as quickly as possible and then uses the massive amount of mana to play powerful cards like Karn Liberated and Wurmcoil Engine as early as turn 3.
### Answer: You should consider Huntmaster of the Fells Thragtusk and Sakura-Tribe Elder</s> |
Based on the reference text, why was the eastern section of the bridge rebuilt? | The San Francisco–Oakland Bay Bridge, known locally as the Bay Bridge, is a complex of bridges spanning San Francisco Bay in California. As part of Interstate 80 and the direct road between San Francisco and Oakland, it carries about 260,000 vehicles a day on its two decks. It has one of the longest spans in the United States.
The toll bridge was conceived as early as the California Gold Rush days, with "Emperor" Joshua Norton famously advocating for it, but construction did not begin until 1933. Designed by Charles H. Purcell, and built by American Bridge Company, it opened on Thursday, November 12, 1936, six months before the Golden Gate Bridge. It originally carried automobile traffic on its upper deck, with trucks, cars, buses and commuter trains on the lower, but after the Key System abandoned rail service on April 20, 1958, the lower deck was converted to all-road traffic as well. On October 12, 1963, traffic was reconfigured to one way traffic on each deck, westbound on the upper deck, and eastbound on the lower deck, with trucks and buses allowed on the upper deck.
In 1986, the bridge was unofficially dedicated to former California Governor James Rolph.
The bridge has two sections of roughly equal length; the older western section, officially known as the Willie L. Brown Jr. Bridge (after former San Francisco Mayor and California State Assembly Speaker Willie L. Brown Jr.), connects downtown San Francisco to Yerba Buena Island, and the newer unnamed eastern section connects the island to Oakland. The western section is a double suspension bridge with two decks, westbound traffic being carried on the upper deck while eastbound is carried on the lower one. The largest span of the original eastern section was a cantilever bridge.
During the 1989 Loma Prieta earthquake, a portion of the eastern section's upper deck collapsed onto the lower deck and the bridge was closed for a month. Reconstruction of the eastern section of the bridge as a causeway connected to a self-anchored suspension bridge began in 2002; the new eastern section opened September 2, 2013, at a reported cost of over $6.5 billion; the original estimate of $250 million was for a seismic retrofit of the existing span. Unlike the western section and the original eastern section of the bridge, the new eastern section is a single deck carrying all eastbound and westbound lanes. Demolition of the old east span was completed on September 8, 2018. | The eastern section of the bridge was rebuilt because a portion of its upper deck collapsed onto the lower deck during the 1989 Loma Prieta earthquake. | closed_qa | ### Instruction: Based on the reference text, why was the eastern section of the bridge rebuilt?
### Context: The San Francisco–Oakland Bay Bridge, known locally as the Bay Bridge, is a complex of bridges spanning San Francisco Bay in California. As part of Interstate 80 and the direct road between San Francisco and Oakland, it carries about 260,000 vehicles a day on its two decks. It has one of the longest spans in the United States.
The toll bridge was conceived as early as the California Gold Rush days, with "Emperor" Joshua Norton famously advocating for it, but construction did not begin until 1933. Designed by Charles H. Purcell, and built by American Bridge Company, it opened on Thursday, November 12, 1936, six months before the Golden Gate Bridge. It originally carried automobile traffic on its upper deck, with trucks, cars, buses and commuter trains on the lower, but after the Key System abandoned rail service on April 20, 1958, the lower deck was converted to all-road traffic as well. On October 12, 1963, traffic was reconfigured to one way traffic on each deck, westbound on the upper deck, and eastbound on the lower deck, with trucks and buses allowed on the upper deck.
In 1986, the bridge was unofficially dedicated to former California Governor James Rolph.
The bridge has two sections of roughly equal length; the older western section, officially known as the Willie L. Brown Jr. Bridge (after former San Francisco Mayor and California State Assembly Speaker Willie L. Brown Jr.), connects downtown San Francisco to Yerba Buena Island, and the newer unnamed eastern section connects the island to Oakland. The western section is a double suspension bridge with two decks, westbound traffic being carried on the upper deck while eastbound is carried on the lower one. The largest span of the original eastern section was a cantilever bridge.
During the 1989 Loma Prieta earthquake, a portion of the eastern section's upper deck collapsed onto the lower deck and the bridge was closed for a month. Reconstruction of the eastern section of the bridge as a causeway connected to a self-anchored suspension bridge began in 2002; the new eastern section opened September 2, 2013, at a reported cost of over $6.5 billion; the original estimate of $250 million was for a seismic retrofit of the existing span. Unlike the western section and the original eastern section of the bridge, the new eastern section is a single deck carrying all eastbound and westbound lanes. Demolition of the old east span was completed on September 8, 2018.
### Answer: The eastern section of the bridge was rebuilt because a portion of its upper deck collapsed onto the lower deck during the 1989 Loma Prieta earthquake.</s> |
What is the name of William Gibson's first comic book series? | Archangel, also written as William Gibson Archangel or William Gibson's Archangel, is a five-issue limited series comic book that was created by William Gibson and Michael St. John Smith, written by William Gibson, illustrated by Butch Guice and story-edited by Michael Benedetto. It is Gibson's first comic book series, which is set in an alternative version of 2016 in which the Vice President of America travels back in time to 1945 to secure power.
IDW Publishing first released Archangel from May 2016 to August 2017, then in October as a hardcover graphic novel. It was nominated for an Eisner Award for Best Limited Series and was adapted into an audio play that was released by Audible. | Archangel | closed_qa | ### Instruction: What is the name of William Gibson's first comic book series?
### Context: Archangel, also written as William Gibson Archangel or William Gibson's Archangel, is a five-issue limited series comic book that was created by William Gibson and Michael St. John Smith, written by William Gibson, illustrated by Butch Guice and story-edited by Michael Benedetto. It is Gibson's first comic book series, which is set in an alternative version of 2016 in which the Vice President of America travels back in time to 1945 to secure power.
IDW Publishing first released Archangel from May 2016 to August 2017, then in October as a hardcover graphic novel. It was nominated for an Eisner Award for Best Limited Series and was adapted into an audio play that was released by Audible.
### Answer: Archangel</s> |
Given this paragraph about the Golden Records, tell me what it is, where it is heading, who/when created it. | The Voyager Golden Records are two phonograph records that were included aboard both Voyager spacecraft launched in 1977. The records contain sounds and images selected to portray the diversity of life and culture on Earth, and are intended for any intelligent extraterrestrial life form who may find them. The records are a time capsule.
Although neither Voyager spacecraft is heading toward any particular star, Voyager 1 will pass within 1.6 light-years' distance of the star Gliese 445, currently in the constellation Camelopardalis, in about 40,000 years.
Carl Sagan noted that "The spacecraft will be encountered and the record played only if there are advanced space-faring civilizations in interstellar space, but the launching of this 'bottle' into the cosmic 'ocean' says something very hopeful about life on this planet."
The contents of the record were selected for NASA by a committee chaired by Carl Sagan of Cornell University. The selection of content for the record took almost a year. Sagan and his associates assembled 115 images and a variety of natural sounds, such as those made by surf, wind, thunder and animals (including the songs of birds and whales). To this they added audio content to represent humanity: spoken greetings in 55 ancient and modern languages, including a spoken greeting in English by U.N. Secretary-General Kurt Waldheim and a greeting by Sagan's six-year-old son, Nick; other human sounds, like footsteps and laughter (Sagan's); the inspirational message Per aspera ad astra in Morse code; and musical selections from different cultures and eras. The record also includes a printed message from U.S. president Jimmy Carter. | The Voyager Golden Records was created by NASA committee and chaired by Carl Sagan launched in 1977 heading to any particular star passing within 1.6 light-years' distance of the star Gliese 445, currently in the constellation Camelopardalis, in about 40,000 years. The contents provided depict diversity of life and culture on Earth through sounds and images. | closed_qa | ### Instruction: Given this paragraph about the Golden Records, tell me what it is, where it is heading, who/when created it.
### Context: The Voyager Golden Records are two phonograph records that were included aboard both Voyager spacecraft launched in 1977. The records contain sounds and images selected to portray the diversity of life and culture on Earth, and are intended for any intelligent extraterrestrial life form who may find them. The records are a time capsule.
Although neither Voyager spacecraft is heading toward any particular star, Voyager 1 will pass within 1.6 light-years' distance of the star Gliese 445, currently in the constellation Camelopardalis, in about 40,000 years.
Carl Sagan noted that "The spacecraft will be encountered and the record played only if there are advanced space-faring civilizations in interstellar space, but the launching of this 'bottle' into the cosmic 'ocean' says something very hopeful about life on this planet."
The contents of the record were selected for NASA by a committee chaired by Carl Sagan of Cornell University. The selection of content for the record took almost a year. Sagan and his associates assembled 115 images and a variety of natural sounds, such as those made by surf, wind, thunder and animals (including the songs of birds and whales). To this they added audio content to represent humanity: spoken greetings in 55 ancient and modern languages, including a spoken greeting in English by U.N. Secretary-General Kurt Waldheim and a greeting by Sagan's six-year-old son, Nick; other human sounds, like footsteps and laughter (Sagan's); the inspirational message Per aspera ad astra in Morse code; and musical selections from different cultures and eras. The record also includes a printed message from U.S. president Jimmy Carter.
### Answer: The Voyager Golden Records was created by NASA committee and chaired by Carl Sagan launched in 1977 heading to any particular star passing within 1.6 light-years' distance of the star Gliese 445, currently in the constellation Camelopardalis, in about 40,000 years. The contents provided depict diversity of life and culture on Earth through sounds and images.</s> |
What channel did the series begin on? | The series began on Discovery Health Channel on November 10, 2009. Season 1 concluded on December 29, 2009, after 6 episodes. Season 2 ran from July 20, 2010, to October 19, 2010, with 8 episodes. Season 3 ran from September 1 to 29, 2011, with 6 episodes. | The series began on Discover Health Channel on November 10, 2009. | closed_qa | ### Instruction: What channel did the series begin on?
### Context: The series began on Discovery Health Channel on November 10, 2009. Season 1 concluded on December 29, 2009, after 6 episodes. Season 2 ran from July 20, 2010, to October 19, 2010, with 8 episodes. Season 3 ran from September 1 to 29, 2011, with 6 episodes.
### Answer: The series began on Discover Health Channel on November 10, 2009.</s> |
Does "outbreeding" or "inbreeding" benefit the offspring more? | Exogamy often results in two individuals that are not closely genetically related marrying each other; that is, outbreeding as opposed to inbreeding. In moderation, this benefits the offspring as it reduces the risk of the offspring inheriting two copies of a defective gene. Increasing the genetic diversity of the offspring improves the chances of offspring reproducing, up until the fourth-cousin level of relatedness; however, reproduction between individuals on the fourth-cousin level of relatedness decreases evolutionarily fitness. | "Outbreeding" is more beneficial to the offspring as it reduces the risk of inheriting defective genes, increasing the offspring's ability to reproduce. | closed_qa | ### Instruction: Does "outbreeding" or "inbreeding" benefit the offspring more?
### Context: Exogamy often results in two individuals that are not closely genetically related marrying each other; that is, outbreeding as opposed to inbreeding. In moderation, this benefits the offspring as it reduces the risk of the offspring inheriting two copies of a defective gene. Increasing the genetic diversity of the offspring improves the chances of offspring reproducing, up until the fourth-cousin level of relatedness; however, reproduction between individuals on the fourth-cousin level of relatedness decreases evolutionarily fitness.
### Answer: "Outbreeding" is more beneficial to the offspring as it reduces the risk of inheriting defective genes, increasing the offspring's ability to reproduce.</s> |
Based on the information below, when might people have started baking bread? | Agriculture encompasses crop and livestock production, aquaculture, fisheries and forestry for food and non-food products. Agriculture was the key development in the rise of sedentary human civilization, whereby farming of domesticated species created food surpluses that enabled people to live in cities. While humans started gathering grains at least 105,000 years ago, nascent farmers only began planting them around 11,500 years ago. Sheep, goats, pigs and cattle were domesticated around 10,000 years ago. Plants were independently cultivated in at least 11 regions of the world. In the twentieth century, industrial agriculture based on large-scale monocultures came to dominate agricultural output. | There is not enough information in the passage to determine exactly when this would have happened, but because bread requires grain, it could not have been made prior to 105,000 years ago when humans first started gathering grain. | closed_qa | ### Instruction: Based on the information below, when might people have started baking bread?
### Context: Agriculture encompasses crop and livestock production, aquaculture, fisheries and forestry for food and non-food products. Agriculture was the key development in the rise of sedentary human civilization, whereby farming of domesticated species created food surpluses that enabled people to live in cities. While humans started gathering grains at least 105,000 years ago, nascent farmers only began planting them around 11,500 years ago. Sheep, goats, pigs and cattle were domesticated around 10,000 years ago. Plants were independently cultivated in at least 11 regions of the world. In the twentieth century, industrial agriculture based on large-scale monocultures came to dominate agricultural output.
### Answer: There is not enough information in the passage to determine exactly when this would have happened, but because bread requires grain, it could not have been made prior to 105,000 years ago when humans first started gathering grain.</s> |
Given a reference text about bull sharks, tell me the gestation period for bull sharks. | Bull sharks mate during late summer and early autumn, often in bays and estuaries. After gestating for 12 months, a bull shark may give birth to 1 to 13 live young.
They are viviparous, born live and free-swimming. The young are about 70 cm (27.6 in) at birth. The bull shark does not rear its young; the young bull sharks are born into flat, protected areas. Coastal lagoons, river mouths, and other low-salinity estuaries are common nursery habitats.
The male bull shark is able to begin reproducing around the age of 15 years while the female cannot begin reproducing until the age of 18 years. The size of a fully matured female bull shark to produce viable eggs for fertilization seems to be 175 cm to 235 cm. The courting routine between bull sharks has not been observed in detail as of yet. The male likely bites the female on the tail until she can turn upside down and the male can copulate at that point. Mature females commonly have scratches from the mating process. | The gestation period for bull sharks is 12 months. | closed_qa | ### Instruction: Given a reference text about bull sharks, tell me the gestation period for bull sharks.
### Context: Bull sharks mate during late summer and early autumn, often in bays and estuaries. After gestating for 12 months, a bull shark may give birth to 1 to 13 live young.
They are viviparous, born live and free-swimming. The young are about 70 cm (27.6 in) at birth. The bull shark does not rear its young; the young bull sharks are born into flat, protected areas. Coastal lagoons, river mouths, and other low-salinity estuaries are common nursery habitats.
The male bull shark is able to begin reproducing around the age of 15 years while the female cannot begin reproducing until the age of 18 years. The size of a fully matured female bull shark to produce viable eggs for fertilization seems to be 175 cm to 235 cm. The courting routine between bull sharks has not been observed in detail as of yet. The male likely bites the female on the tail until she can turn upside down and the male can copulate at that point. Mature females commonly have scratches from the mating process.
### Answer: The gestation period for bull sharks is 12 months.</s> |
What is Halt and Catch Fire about? | Halt and Catch Fire is an American period drama television series created by Christopher Cantwell and Christopher C. Rogers. It aired on the cable network AMC in the United States from June 1, 2014, to October 14, 2017, spanning four seasons and 40 episodes. It depicts a fictionalized insider's view of the personal computer revolution of the 1980s and the early days of the World Wide Web in the early 1990s. The show's title refers to computer machine code instruction Halt and Catch Fire (HCF), the execution of which would cause the computer's central processing unit to cease meaningful operation (and in an exaggeration, catch fire). | Halt and Catch Fire is an American period drama spanning four seasons and 40 episodes. It depicts a fictionalized insider's view of the personal computer revolution of the 1980s and the early days of the World Wide Web in the early 1990s. | closed_qa | ### Instruction: What is Halt and Catch Fire about?
### Context: Halt and Catch Fire is an American period drama television series created by Christopher Cantwell and Christopher C. Rogers. It aired on the cable network AMC in the United States from June 1, 2014, to October 14, 2017, spanning four seasons and 40 episodes. It depicts a fictionalized insider's view of the personal computer revolution of the 1980s and the early days of the World Wide Web in the early 1990s. The show's title refers to computer machine code instruction Halt and Catch Fire (HCF), the execution of which would cause the computer's central processing unit to cease meaningful operation (and in an exaggeration, catch fire).
### Answer: Halt and Catch Fire is an American period drama spanning four seasons and 40 episodes. It depicts a fictionalized insider's view of the personal computer revolution of the 1980s and the early days of the World Wide Web in the early 1990s.</s> |
What type of creatures undergo Metamorphosis? | Metamorphosis is a biological process by which an animal physically develops including birth transformation or hatching, involving a conspicuous and relatively abrupt change in the animal's body structure through cell growth and differentiation. Some insects, fish, amphibians, mollusks, crustaceans, cnidarians, echinoderms, and tunicates undergo metamorphosis, which is often accompanied by a change of nutrition source or behavior. Animals can be divided into species that undergo complete metamorphosis ("holometaboly"), incomplete metamorphosis ("hemimetaboly"), or no metamorphosis ("ametaboly"). | Some insects, fish, amphibians, mollusks, crustaceans, cnidarians, echinoderms, and tunicates undergo metamorphosis | closed_qa | ### Instruction: What type of creatures undergo Metamorphosis?
### Context: Metamorphosis is a biological process by which an animal physically develops including birth transformation or hatching, involving a conspicuous and relatively abrupt change in the animal's body structure through cell growth and differentiation. Some insects, fish, amphibians, mollusks, crustaceans, cnidarians, echinoderms, and tunicates undergo metamorphosis, which is often accompanied by a change of nutrition source or behavior. Animals can be divided into species that undergo complete metamorphosis ("holometaboly"), incomplete metamorphosis ("hemimetaboly"), or no metamorphosis ("ametaboly").
### Answer: Some insects, fish, amphibians, mollusks, crustaceans, cnidarians, echinoderms, and tunicates undergo metamorphosis</s> |
Given this paragraph about the Subaru Outback, in what year was the Wilderness trim introduced? | The sixth-generation Subaru Outback for the North American market was unveiled at the New York Auto Show on April 17, 2019. Full production started from July 29, 2019. This redesigned Outback keeps the same body style (wagon/crossover SUV), while still receiving a few changes, such as new taillights (similar to the ones on the Forester and upcoming Legacy) and an updated, modern interior.
Internally, the 2020 Outback moves to the Subaru Global Platform, which is stiffer and offers a common base to allow use of alternative powertrains, such as hybrid or all-electric. The base model sixth-generation Outback was offered with the 2.5-liter gasoline direct-injection FB25D; a turbocharged 2.4-liter FA24F that was first used on the Subaru Ascent was offered as the uplevel engine, providing improved power, torque, and consumption compared to the discontinued EZ36.
In addition to all-wheel drive coming standard on every trim, the 2021 model year also added LED adaptive steering-responsive headlights (SRH) on premium variants and a seat-belt reminder standard for all passengers.
World markets outside of North America, including Japan, did not launch the sixth generation Outback until 2021.
Australia launched on the 20th February 2021 with a number of differences over the North American version including updated LED headlights with combined Day Running Light and turn/direction indicator with SRH (Steering Responsive Headlights) standard across all variants (the Touring model also gained Adaptive Driving Beam (ADB) until 2023 when ADB became standard across all model variants), as is pushbutton-start with tailgate PIN access. There is improved camera resolution for rear, side and front driver assistance cameras, EyeSight 4.0 with roadside speed sign reading, adjustable speed limiting, and intersection crash avoidance utilising new EyeSight cameras with a wider field of view and a lower profile inside the cabin. Subaru claim the sole engine fitted to Australian Outbacks, the revised 2.5-litre FB25D, is made of 90% new components compared to the Gen5 engine as well. The Japanese Outback was announced on October 7, 2021; in Japan the Outback is offered exclusively with the 1.8-litre CB18 gasoline direct-injection turbo engine instead.
In September 2021, the European variant received a five-star rating by the European New Car Assessment Programme (EuroNCAP) 2021.
For the 2022 model year, Subaru added a new trim level, the Wilderness. Outback Wilderness features 9.5 inches of ground clearance, turbocharged 2.4-liter FA24F engine, and re-tuned transmission gearing with revised front and rear gear ratios. Marketed for off-road use, the Outback Wilderness has 17" wheels with standard all-terrain tires, enhanced body cladding, and synthetic upholstery. | 2022 | closed_qa | ### Instruction: Given this paragraph about the Subaru Outback, in what year was the Wilderness trim introduced?
### Context: The sixth-generation Subaru Outback for the North American market was unveiled at the New York Auto Show on April 17, 2019. Full production started from July 29, 2019. This redesigned Outback keeps the same body style (wagon/crossover SUV), while still receiving a few changes, such as new taillights (similar to the ones on the Forester and upcoming Legacy) and an updated, modern interior.
Internally, the 2020 Outback moves to the Subaru Global Platform, which is stiffer and offers a common base to allow use of alternative powertrains, such as hybrid or all-electric. The base model sixth-generation Outback was offered with the 2.5-liter gasoline direct-injection FB25D; a turbocharged 2.4-liter FA24F that was first used on the Subaru Ascent was offered as the uplevel engine, providing improved power, torque, and consumption compared to the discontinued EZ36.
In addition to all-wheel drive coming standard on every trim, the 2021 model year also added LED adaptive steering-responsive headlights (SRH) on premium variants and a seat-belt reminder standard for all passengers.
World markets outside of North America, including Japan, did not launch the sixth generation Outback until 2021.
Australia launched on the 20th February 2021 with a number of differences over the North American version including updated LED headlights with combined Day Running Light and turn/direction indicator with SRH (Steering Responsive Headlights) standard across all variants (the Touring model also gained Adaptive Driving Beam (ADB) until 2023 when ADB became standard across all model variants), as is pushbutton-start with tailgate PIN access. There is improved camera resolution for rear, side and front driver assistance cameras, EyeSight 4.0 with roadside speed sign reading, adjustable speed limiting, and intersection crash avoidance utilising new EyeSight cameras with a wider field of view and a lower profile inside the cabin. Subaru claim the sole engine fitted to Australian Outbacks, the revised 2.5-litre FB25D, is made of 90% new components compared to the Gen5 engine as well. The Japanese Outback was announced on October 7, 2021; in Japan the Outback is offered exclusively with the 1.8-litre CB18 gasoline direct-injection turbo engine instead.
In September 2021, the European variant received a five-star rating by the European New Car Assessment Programme (EuroNCAP) 2021.
For the 2022 model year, Subaru added a new trim level, the Wilderness. Outback Wilderness features 9.5 inches of ground clearance, turbocharged 2.4-liter FA24F engine, and re-tuned transmission gearing with revised front and rear gear ratios. Marketed for off-road use, the Outback Wilderness has 17" wheels with standard all-terrain tires, enhanced body cladding, and synthetic upholstery.
### Answer: 2022</s> |
Which musical instrument does Peter Yanowitz play? | Peter Yanowitz (born September 13, 1967, Chicago, Illinois, United States), also known as Pedro Yanowitz, is an American musician, songwriter, and visual artist. Yanowitz was the original drummer of The Wallflowers, and for Natalie Merchant on her first three solo records Tigerlily, Ophelia, and Live in Concert. He also played drums for Money Mark, the Black Sabbath tribute band Hand of Doom with Melissa Auf der Maur, and with Nina Nastasia, on her album Dogs. Other artists Yanowitz has played drums with include: Yoko Ono, Allen Ginsberg, and Wilco . Yanowitz was also the bass player, songwriter, and producer for the band Morningwood. Currently, Yanowitz is the drummer of Exclamation Pony with Ryan Jarman, peter also performed as 'Schlatko', the drummer of The Angry Inch in the Tony award winning Broadway musical Hedwig and the Angry Inch, starring Neil Patrick Harris, Andrew Rannells, Michael C. Hall, John Cameron Mitchell, Darren Criss, and Taye Diggs. | Drums | closed_qa | ### Instruction: Which musical instrument does Peter Yanowitz play?
### Context: Peter Yanowitz (born September 13, 1967, Chicago, Illinois, United States), also known as Pedro Yanowitz, is an American musician, songwriter, and visual artist. Yanowitz was the original drummer of The Wallflowers, and for Natalie Merchant on her first three solo records Tigerlily, Ophelia, and Live in Concert. He also played drums for Money Mark, the Black Sabbath tribute band Hand of Doom with Melissa Auf der Maur, and with Nina Nastasia, on her album Dogs. Other artists Yanowitz has played drums with include: Yoko Ono, Allen Ginsberg, and Wilco . Yanowitz was also the bass player, songwriter, and producer for the band Morningwood. Currently, Yanowitz is the drummer of Exclamation Pony with Ryan Jarman, peter also performed as 'Schlatko', the drummer of The Angry Inch in the Tony award winning Broadway musical Hedwig and the Angry Inch, starring Neil Patrick Harris, Andrew Rannells, Michael C. Hall, John Cameron Mitchell, Darren Criss, and Taye Diggs.
### Answer: Drums</s> |
Given a reference text about Pultenaea empetrifolia, tell me the colors of its flowers. | Pultenaea empetrifolia is a species of flowering plant in the family Fabaceae and is endemic to the south-west of Western Australia. It is a spindly, prostrate or spreading shrub with down-curved, cylindrical, grooved leaves and yellow to orange and red flowers.
Description
Pultenaea empetrifolia is a spindly, prostrate or spreading shrub that typically grows to a height of up to 40 cm (16 in) and has glabrous stems. The leaves are cylindrical and curved strongly downwards with one or two grooves along the lower surface, 3–4.5 mm (0.12–0.18 in) long and 0.6–1.0 mm (0.024–0.039 in) wide with stipules at the base. The flowers are yellow to orange and red, and sessile or on a pedicel about up to 0.5 mm (0.020 in) long. The sepals are hairy and 4.0–4.6 mm (0.16–0.18 in) long with hairy bracteoles 1.5–3 mm (0.059–0.118 in) long at the base. The standard petal is 8.0–8.5 mm (0.31–0.33 in) long, the wings 7–8 mm (0.28–0.31 in) long and the keel 6.2–7.0 mm (0.24–0.28 in) long. Flowering occurs from September to October and the fruit is a pod. | The Pultenaea empetrifolia has yellow to orange and red flowers. | closed_qa | ### Instruction: Given a reference text about Pultenaea empetrifolia, tell me the colors of its flowers.
### Context: Pultenaea empetrifolia is a species of flowering plant in the family Fabaceae and is endemic to the south-west of Western Australia. It is a spindly, prostrate or spreading shrub with down-curved, cylindrical, grooved leaves and yellow to orange and red flowers.
Description
Pultenaea empetrifolia is a spindly, prostrate or spreading shrub that typically grows to a height of up to 40 cm (16 in) and has glabrous stems. The leaves are cylindrical and curved strongly downwards with one or two grooves along the lower surface, 3–4.5 mm (0.12–0.18 in) long and 0.6–1.0 mm (0.024–0.039 in) wide with stipules at the base. The flowers are yellow to orange and red, and sessile or on a pedicel about up to 0.5 mm (0.020 in) long. The sepals are hairy and 4.0–4.6 mm (0.16–0.18 in) long with hairy bracteoles 1.5–3 mm (0.059–0.118 in) long at the base. The standard petal is 8.0–8.5 mm (0.31–0.33 in) long, the wings 7–8 mm (0.28–0.31 in) long and the keel 6.2–7.0 mm (0.24–0.28 in) long. Flowering occurs from September to October and the fruit is a pod.
### Answer: The Pultenaea empetrifolia has yellow to orange and red flowers.</s> |
What enabled Libya to obtain rapid economic growth prior to 1990? | Upon independence an overwhelming majority of Africans lived in extreme poverty. The continent suffered from the lack of infrastructural or industrial development under colonial rule, along with political instability. With limited financial resources or access to global markets, relatively stable countries such as Kenya still experienced only very slow economic development. Only a handful of African countries succeeded in obtaining rapid economic growth prior to 1990. Exceptions include Libya and Equatorial Guinea, both of which possess large oil reserves. | Libya possessed large oil reserves enabling it to experience rapid economic growth. | closed_qa | ### Instruction: What enabled Libya to obtain rapid economic growth prior to 1990?
### Context: Upon independence an overwhelming majority of Africans lived in extreme poverty. The continent suffered from the lack of infrastructural or industrial development under colonial rule, along with political instability. With limited financial resources or access to global markets, relatively stable countries such as Kenya still experienced only very slow economic development. Only a handful of African countries succeeded in obtaining rapid economic growth prior to 1990. Exceptions include Libya and Equatorial Guinea, both of which possess large oil reserves.
### Answer: Libya possessed large oil reserves enabling it to experience rapid economic growth.</s> |
Is Horsfieldia nervos a plant or animal? | Horsfieldia nervosa is a species of plant in the family Myristicaceae. It is a tree endemic to Borneo where it is confined to Sarawak. | plant | closed_qa | ### Instruction: Is Horsfieldia nervos a plant or animal?
### Context: Horsfieldia nervosa is a species of plant in the family Myristicaceae. It is a tree endemic to Borneo where it is confined to Sarawak.
### Answer: plant</s> |
Given this reference text that describes the importance of tigers in chinese culture, what do they symbolize in modern China and what types were common in the northeast? | Tigers have been of great importance in Chinese culture since the earliest surviving records of Chinese history, with the character 虎 appearing on the Shang-era oracle bones. In prehistoric China, the Siberian, South China, and Bengal tigers were common in the northeast, southeast, and southwest respectively and tigers figures prominently in myth, astrology, Chinese poetry, painting, and other fields. Most prominently, the tiger has long been regarded as a major symbol of masculine yang energy and the king of the animals. In modern China, it generally represents power, fearlessness, and wrath | Tigers symbolize power, fearlessness and wrath in modern China. Bengal tigers were common in the northeast. | closed_qa | ### Instruction: Given this reference text that describes the importance of tigers in chinese culture, what do they symbolize in modern China and what types were common in the northeast?
### Context: Tigers have been of great importance in Chinese culture since the earliest surviving records of Chinese history, with the character 虎 appearing on the Shang-era oracle bones. In prehistoric China, the Siberian, South China, and Bengal tigers were common in the northeast, southeast, and southwest respectively and tigers figures prominently in myth, astrology, Chinese poetry, painting, and other fields. Most prominently, the tiger has long been regarded as a major symbol of masculine yang energy and the king of the animals. In modern China, it generally represents power, fearlessness, and wrath
### Answer: Tigers symbolize power, fearlessness and wrath in modern China. Bengal tigers were common in the northeast.</s> |
given this reference text about 1891 Cypriot legislative election, What caused the non-Muslim seats to drop in 1886 to 10,030? | The Legislative Council consisted of six official members appointed by the High Commissioner and twelve elected members, three of which were Muslims and nine of which were non-Muslims.
The island was divided into three constituencies, each formed of two districts. Each constituency elected one Muslim and three non-Muslims. Muslim voters had one vote, whilst non-Muslims could vote for up to three candidates. Due to the high levels of illiteracy, voting was not secret, with voters required to tell the polling officers their candidates of choice, often in front of agents of the candidates.
Suffrage was limited to men aged over 21 who had been permanent residents during the five years prior to the elections, and who had paid either the verghi tax (which was levied as an annual payment of one four-thousandth of a property's value, 4% of rental income or 3% on profits or salaries) or rent for a dwelling or shop within the last year. However, of the estimated 40,000 taxpayers in the territory at the time of the elections, only those that had been able to pay their taxes on time were able to register to vote. The number of registered voters for the non-Muslim seats dropped from 15,408 in 1886 to 10,030. | Due to the requirement of paying your taxes on time in the previous year to be able to register to vote, the number of voters that were non-Muslim dropped. | closed_qa | ### Instruction: given this reference text about 1891 Cypriot legislative election, What caused the non-Muslim seats to drop in 1886 to 10,030?
### Context: The Legislative Council consisted of six official members appointed by the High Commissioner and twelve elected members, three of which were Muslims and nine of which were non-Muslims.
The island was divided into three constituencies, each formed of two districts. Each constituency elected one Muslim and three non-Muslims. Muslim voters had one vote, whilst non-Muslims could vote for up to three candidates. Due to the high levels of illiteracy, voting was not secret, with voters required to tell the polling officers their candidates of choice, often in front of agents of the candidates.
Suffrage was limited to men aged over 21 who had been permanent residents during the five years prior to the elections, and who had paid either the verghi tax (which was levied as an annual payment of one four-thousandth of a property's value, 4% of rental income or 3% on profits or salaries) or rent for a dwelling or shop within the last year. However, of the estimated 40,000 taxpayers in the territory at the time of the elections, only those that had been able to pay their taxes on time were able to register to vote. The number of registered voters for the non-Muslim seats dropped from 15,408 in 1886 to 10,030.
### Answer: Due to the requirement of paying your taxes on time in the previous year to be able to register to vote, the number of voters that were non-Muslim dropped.</s> |
Using the following text, list the top 4 drugs by revenue for Pfizer in 2022? | Pfizer Inc. (/ˈfaɪzər/ FY-zər) is an American multinational pharmaceutical and biotechnology corporation headquartered on 42nd Street in Manhattan, New York City. The company was established in 1849 in New York by two German entrepreneurs, Charles Pfizer (1824–1906) and his cousin Charles F. Erhart (1821–1891).
Pfizer develops and produces medicines and vaccines for immunology, oncology, cardiology, endocrinology, and neurology. The company's largest products by sales are the Pfizer–BioNTech COVID-19 vaccine ($37 billion in 2022 revenues), Nirmatrelvir/ritonavir ($18 billion in 2022 revenues), Apixaban ($6 billion in 2022 revenues), a pneumococcal conjugate vaccine ($6 billion in 2022 revenues), and Palbociclib ($5 billion in 2022 revenues). In 2022, 42% of the company's revenues came from the United States, 8% came from Japan, and 50% came from other countries.
Pfizer was a component of the Dow Jones Industrial Average stock market index from 2004 to August 2020. The company ranks 43rd on the Fortune 500 and 43rd on the Forbes Global 2000. | 1. Pfizer–BioNTech COVID-19 vaccine
2. Nirmatrelvir/ritonavir
3. Apixaban
4. Palbociclib | closed_qa | ### Instruction: Using the following text, list the top 4 drugs by revenue for Pfizer in 2022?
### Context: Pfizer Inc. (/ˈfaɪzər/ FY-zər) is an American multinational pharmaceutical and biotechnology corporation headquartered on 42nd Street in Manhattan, New York City. The company was established in 1849 in New York by two German entrepreneurs, Charles Pfizer (1824–1906) and his cousin Charles F. Erhart (1821–1891).
Pfizer develops and produces medicines and vaccines for immunology, oncology, cardiology, endocrinology, and neurology. The company's largest products by sales are the Pfizer–BioNTech COVID-19 vaccine ($37 billion in 2022 revenues), Nirmatrelvir/ritonavir ($18 billion in 2022 revenues), Apixaban ($6 billion in 2022 revenues), a pneumococcal conjugate vaccine ($6 billion in 2022 revenues), and Palbociclib ($5 billion in 2022 revenues). In 2022, 42% of the company's revenues came from the United States, 8% came from Japan, and 50% came from other countries.
Pfizer was a component of the Dow Jones Industrial Average stock market index from 2004 to August 2020. The company ranks 43rd on the Fortune 500 and 43rd on the Forbes Global 2000.
### Answer: 1. Pfizer–BioNTech COVID-19 vaccine
2. Nirmatrelvir/ritonavir
3. Apixaban
4. Palbociclib</s> |
Was Furze Hill an established community in the 19th century? | Furze Hill (or Furzehill) is a hamlet situated in the New Forest National Park of Hampshire, England. It is in the civil parish of Ellingham, Harbridge and Ibsley. Its nearest town is Fordingbridge, which lies approximately 3.1 miles (5.2 km) north-west from the hamlet.
Furze Hill is a hamlet in the civil parish of Hyde. It is situated on low ground on either side of Huckles Brook on the South Gorley to Ogdens road. The houses are surrounded by fields and paddocks. Additional houses can be found at the southern edge of Gorley Common lining a narrow track to North Gorley.
Furze Hill is the most recent settlement in the parish of Hyde, becoming an established community only in the 20th century. | No, it was not an established community until the 20th century. | closed_qa | ### Instruction: Was Furze Hill an established community in the 19th century?
### Context: Furze Hill (or Furzehill) is a hamlet situated in the New Forest National Park of Hampshire, England. It is in the civil parish of Ellingham, Harbridge and Ibsley. Its nearest town is Fordingbridge, which lies approximately 3.1 miles (5.2 km) north-west from the hamlet.
Furze Hill is a hamlet in the civil parish of Hyde. It is situated on low ground on either side of Huckles Brook on the South Gorley to Ogdens road. The houses are surrounded by fields and paddocks. Additional houses can be found at the southern edge of Gorley Common lining a narrow track to North Gorley.
Furze Hill is the most recent settlement in the parish of Hyde, becoming an established community only in the 20th century.
### Answer: No, it was not an established community until the 20th century.</s> |
What did Bobby Moore die from? | Moore's first cancer was in 1964, two years before England's first World Cup win — a diagnosis of testicular cancer, treated by orchidectomy of one; it had not spread. In April 1991, Moore underwent an operation for suspected colorectal cancer. At the time it was reported as an "emergency stomach operation".
On 14 February 1993, he announced he was suffering from colorectal cancer and liver cancer; by this time it had spread. Three days later he commentated on an England match against San Marino at Wembley, alongside his friend Jonathan Pearce. Moore attended a dinner after the match and made a presentation. That was to be his final public act; seven days later on 24 February, at 6:36 am, he died at the age of 51. | Booby Moore died aged 51 from colorectal and liver cancer. | closed_qa | ### Instruction: What did Bobby Moore die from?
### Context: Moore's first cancer was in 1964, two years before England's first World Cup win — a diagnosis of testicular cancer, treated by orchidectomy of one; it had not spread. In April 1991, Moore underwent an operation for suspected colorectal cancer. At the time it was reported as an "emergency stomach operation".
On 14 February 1993, he announced he was suffering from colorectal cancer and liver cancer; by this time it had spread. Three days later he commentated on an England match against San Marino at Wembley, alongside his friend Jonathan Pearce. Moore attended a dinner after the match and made a presentation. That was to be his final public act; seven days later on 24 February, at 6:36 am, he died at the age of 51.
### Answer: Booby Moore died aged 51 from colorectal and liver cancer.</s> |
What are main vegetables in V8 juice? | The original V8 is a savory juice. It is made mainly from water and tomato concentrate, and reconstituted vegetable juice blend: water and concentrate of eight vegetables, specifically: beets, celery, carrots, lettuce, parsley, watercress, spinach, and tomato. Campbell's has produced several varieties of the drink, such as Original, Spicy Hot, Hint of Black Pepper, Lemon, Picante, Low-Sodium, and Organic.
Three spin-offs of the V8 brand, "V8 Energy", "V8 Splash" and "V8 V•Fusion", are blends of fruit and vegetable (specifically carrot) juices. V8 Splash is a juice cocktail partially sweetened with high-fructose corn syrup and sucralose; diet versions of V8 Splash omit the high-fructose corn syrup. V8 Energy also classifies as a cocktail and is partially sweetened with sucralose. V•Fusion is made from 100% juice. | beets, celery, carrots, lettuce, parsley, watercress, spinach, and tomato | closed_qa | ### Instruction: What are main vegetables in V8 juice?
### Context: The original V8 is a savory juice. It is made mainly from water and tomato concentrate, and reconstituted vegetable juice blend: water and concentrate of eight vegetables, specifically: beets, celery, carrots, lettuce, parsley, watercress, spinach, and tomato. Campbell's has produced several varieties of the drink, such as Original, Spicy Hot, Hint of Black Pepper, Lemon, Picante, Low-Sodium, and Organic.
Three spin-offs of the V8 brand, "V8 Energy", "V8 Splash" and "V8 V•Fusion", are blends of fruit and vegetable (specifically carrot) juices. V8 Splash is a juice cocktail partially sweetened with high-fructose corn syrup and sucralose; diet versions of V8 Splash omit the high-fructose corn syrup. V8 Energy also classifies as a cocktail and is partially sweetened with sucralose. V•Fusion is made from 100% juice.
### Answer: beets, celery, carrots, lettuce, parsley, watercress, spinach, and tomato</s> |
Given a reference text about Connie Passalacqua Hayman, tell me when and where taught journalism. | Connie Passalacqua Hayman is an American journalist and educator. Passalacqua Hayman has written on a number of topics, but is noted for her reporting and critical analysis of daytime soap operas.
Career
Passalacqua Hayman started her soap journalism career in 1980 as an assistant to newspaper columnist Jon-Michael Reed, "the first soap journalist to review soaps as theater and edit soap magazines for intelligent readers." She has since written about the daytime industry for various publications and news organizations, including Newsday, United Features Syndicate, The New York Times, Variety, the New York Daily News, TV Guide and USA Today. She was the editor of Afternoon TV magazine from 1980 to 1983, an editor for Soap Opera World and a contributor for Soap Opera Digest, Soap Opera People and others.
Between 1995 and 2001, Passalacqua Hayman was an adjunct professor of journalism at New York University, and in 2001 she left writing full-time to earn a master's degree in education at NYU. She taught journalism at Marymount Manhattan College as an adjunct professor in the Communications Department from 2007 to 2014. | Connie Passalacqua Hayman taught journalism at New York University from 1995 to 2001 and at Marymount Manhattan College from 2007 to 2014. | closed_qa | ### Instruction: Given a reference text about Connie Passalacqua Hayman, tell me when and where taught journalism.
### Context: Connie Passalacqua Hayman is an American journalist and educator. Passalacqua Hayman has written on a number of topics, but is noted for her reporting and critical analysis of daytime soap operas.
Career
Passalacqua Hayman started her soap journalism career in 1980 as an assistant to newspaper columnist Jon-Michael Reed, "the first soap journalist to review soaps as theater and edit soap magazines for intelligent readers." She has since written about the daytime industry for various publications and news organizations, including Newsday, United Features Syndicate, The New York Times, Variety, the New York Daily News, TV Guide and USA Today. She was the editor of Afternoon TV magazine from 1980 to 1983, an editor for Soap Opera World and a contributor for Soap Opera Digest, Soap Opera People and others.
Between 1995 and 2001, Passalacqua Hayman was an adjunct professor of journalism at New York University, and in 2001 she left writing full-time to earn a master's degree in education at NYU. She taught journalism at Marymount Manhattan College as an adjunct professor in the Communications Department from 2007 to 2014.
### Answer: Connie Passalacqua Hayman taught journalism at New York University from 1995 to 2001 and at Marymount Manhattan College from 2007 to 2014.</s> |
Were the months that Shirley C. Guthrie Jr. was born and died in the same month or different months? | Shirley C. Guthrie Jr. (9 October 1927 – 23 October 2004) was a minister of the Presbyterian Church (USA) and J.B. Green Professor of Systematic Theology at Columbia Theological Seminary for nearly 40 years. He was well known for his book, Christian Doctrine, which was originally written for an Adult Sunday School Book in the old PCUS Covenant life curriculum. | The same. Shirley C. Guthrie Jr. was born in October 1927 and died in October 2004. | closed_qa | ### Instruction: Were the months that Shirley C. Guthrie Jr. was born and died in the same month or different months?
### Context: Shirley C. Guthrie Jr. (9 October 1927 – 23 October 2004) was a minister of the Presbyterian Church (USA) and J.B. Green Professor of Systematic Theology at Columbia Theological Seminary for nearly 40 years. He was well known for his book, Christian Doctrine, which was originally written for an Adult Sunday School Book in the old PCUS Covenant life curriculum.
### Answer: The same. Shirley C. Guthrie Jr. was born in October 1927 and died in October 2004.</s> |
When was West Ham started and when did they get the name West Ham United? | West Ham United Football Club is an English professional football club that plays its home matches in Stratford, East London. The club competes in the Premier League, the top tier of English football. The club plays at the London Stadium, having moved from their former home, the Boleyn Ground, in 2016. The club was founded in 1895 as Thames Ironworks and reformed in 1900 as West Ham United. They moved to the Boleyn Ground in 1904, which remained their home ground for more than a century. The team initially competed in the Southern League and Western League before joining the Football League in 1919. They were promoted to the top flight in 1923, when they were also losing finalists in the first FA Cup Final held at Wembley. In 1940, the club won the inaugural Football League War Cup. | West Ham started in 1895 as Thames Ironworks and became West Ham United in 1900. | closed_qa | ### Instruction: When was West Ham started and when did they get the name West Ham United?
### Context: West Ham United Football Club is an English professional football club that plays its home matches in Stratford, East London. The club competes in the Premier League, the top tier of English football. The club plays at the London Stadium, having moved from their former home, the Boleyn Ground, in 2016. The club was founded in 1895 as Thames Ironworks and reformed in 1900 as West Ham United. They moved to the Boleyn Ground in 1904, which remained their home ground for more than a century. The team initially competed in the Southern League and Western League before joining the Football League in 1919. They were promoted to the top flight in 1923, when they were also losing finalists in the first FA Cup Final held at Wembley. In 1940, the club won the inaugural Football League War Cup.
### Answer: West Ham started in 1895 as Thames Ironworks and became West Ham United in 1900.</s> |
How long does it take to recover from a sinus infection? | Generally sinusitis starts off as a common viral infection like common cold. This infection generally subsides within 5 to 7 days. During this time the nasal structures can swell and facilitate the stagnation of fluids in sinuses that leads to acute sinusitis which lasts from 6th day of the infection to 15th day. From the 15th day to 45th day of the infection comes the subacute stage followed by chronic stage. Whenever a chronic stage patient's immunity takes a hit the infection moves to "acute on sinusitis" stage and moves back to chronic when the immunity is up. | Given this paragraph about Sinusitis, it takes 5-7 days to feel much better. | closed_qa | ### Instruction: How long does it take to recover from a sinus infection?
### Context: Generally sinusitis starts off as a common viral infection like common cold. This infection generally subsides within 5 to 7 days. During this time the nasal structures can swell and facilitate the stagnation of fluids in sinuses that leads to acute sinusitis which lasts from 6th day of the infection to 15th day. From the 15th day to 45th day of the infection comes the subacute stage followed by chronic stage. Whenever a chronic stage patient's immunity takes a hit the infection moves to "acute on sinusitis" stage and moves back to chronic when the immunity is up.
### Answer: Given this paragraph about Sinusitis, it takes 5-7 days to feel much better.</s> |
Given this paragraph about the human brain, how does my brain know that I'm touching something hot? | The human brain is the central organ of the human nervous system, and with the spinal cord makes up the central nervous system. The brain consists of the cerebrum, the brainstem and the cerebellum. It controls most of the activities of the body, processing, integrating, and coordinating the information it receives from the sense organs, and making decisions as to the instructions sent to the rest of the body. The brain is contained in, and protected by, the skull bones of the head. | Humans process information from the various sensory systems via the central nervous system. The nerves in your hand are integral to your sense of touch. When your fingers touch something hot, the nerves in your hand quickly transmit that information through the nervous system to the central nervous system. After processing an electrochemical signal up through the spine, the sensory signal is eventually received in the human brain. The brain takes action and, in this case, initiates an instinctual retraction of the hand. | closed_qa | ### Instruction: Given this paragraph about the human brain, how does my brain know that I'm touching something hot?
### Context: The human brain is the central organ of the human nervous system, and with the spinal cord makes up the central nervous system. The brain consists of the cerebrum, the brainstem and the cerebellum. It controls most of the activities of the body, processing, integrating, and coordinating the information it receives from the sense organs, and making decisions as to the instructions sent to the rest of the body. The brain is contained in, and protected by, the skull bones of the head.
### Answer: Humans process information from the various sensory systems via the central nervous system. The nerves in your hand are integral to your sense of touch. When your fingers touch something hot, the nerves in your hand quickly transmit that information through the nervous system to the central nervous system. After processing an electrochemical signal up through the spine, the sensory signal is eventually received in the human brain. The brain takes action and, in this case, initiates an instinctual retraction of the hand.</s> |
Given the reference text below about Larry Bird, tell me where he was born, what he did for a living, and who his greatest professional rival was. | Larry Joe Bird (born December 7, 1956) is an American former professional basketball player, coach, and executive in the National Basketball Association (NBA). Nicknamed "the Hick from French Lick" and "Larry Legend", Bird is widely regarded as one of the greatest basketball players of all time. He is the only person in NBA history to be named Rookie of the Year, Most Valuable Player, Finals MVP, All-Star MVP, Coach of the Year, and Executive of the Year. Growing up in French Lick, Indiana, he was a local basketball star. Highly recruited, he initially signed to play college basketball for coach Bob Knight of the Indiana Hoosiers, but Bird dropped out after one month and returned to French Lick to attend a local community college. The next year he attended the smaller Indiana State University, ultimately playing three years for the Sycamores. Drafted by the Boston Celtics with the sixth overall pick in the 1978 NBA draft after his second year at Indiana State, Bird elected to stay in college and returned for the 1978–1979 season. He then led his team to an undefeated regular season. The season finished with a national championship game match-up of Indiana State against Michigan State and featured a highly anticipated match-up of Bird against Michigan State great Magic Johnson, thus beginning a career-long rivalry that the two shared for over a decade.
https://en.wikipedia.org/wiki/Larry_Bird | Larry Bird was born in French Lick. He played and coached basketball for a living, and his main rival was Magic Johnson. | closed_qa | ### Instruction: Given the reference text below about Larry Bird, tell me where he was born, what he did for a living, and who his greatest professional rival was.
### Context: Larry Joe Bird (born December 7, 1956) is an American former professional basketball player, coach, and executive in the National Basketball Association (NBA). Nicknamed "the Hick from French Lick" and "Larry Legend", Bird is widely regarded as one of the greatest basketball players of all time. He is the only person in NBA history to be named Rookie of the Year, Most Valuable Player, Finals MVP, All-Star MVP, Coach of the Year, and Executive of the Year. Growing up in French Lick, Indiana, he was a local basketball star. Highly recruited, he initially signed to play college basketball for coach Bob Knight of the Indiana Hoosiers, but Bird dropped out after one month and returned to French Lick to attend a local community college. The next year he attended the smaller Indiana State University, ultimately playing three years for the Sycamores. Drafted by the Boston Celtics with the sixth overall pick in the 1978 NBA draft after his second year at Indiana State, Bird elected to stay in college and returned for the 1978–1979 season. He then led his team to an undefeated regular season. The season finished with a national championship game match-up of Indiana State against Michigan State and featured a highly anticipated match-up of Bird against Michigan State great Magic Johnson, thus beginning a career-long rivalry that the two shared for over a decade.
https://en.wikipedia.org/wiki/Larry_Bird
### Answer: Larry Bird was born in French Lick. He played and coached basketball for a living, and his main rival was Magic Johnson.</s> |
Based on the following paragraph about the campuses of the University of Georgia, which types of trees can be found on the campus? | The campuses' dominant architectural themes are Federal, Classical and Antebellum style. Though there have been many additions, changes, and augmentations, the University of Georgia's campus maintains its historic character. In 2000, the entire campus was designated as an arboretum, the University of Georgia Campus Arboretum. It is estimated to be home to about 9,000 trees with over 154 identified species including native trees such magnolias, red oaks, white oaks, and beeches, as well as non-native trees such as the North Africa Atlas cedar, the Chinese parasol and royal paulownia, and the Japanese zelkova and black pine | On the campuses of the University of Georgia one can find native tree species such as magnolias, red oaks, white oaks, and beeches. There are also non-native tree species to be found such as the North Africa Atlas cedar, the Chinese parasol and royal paulownia, and the Japanese zelkova and black pine. | closed_qa | ### Instruction: Based on the following paragraph about the campuses of the University of Georgia, which types of trees can be found on the campus?
### Context: The campuses' dominant architectural themes are Federal, Classical and Antebellum style. Though there have been many additions, changes, and augmentations, the University of Georgia's campus maintains its historic character. In 2000, the entire campus was designated as an arboretum, the University of Georgia Campus Arboretum. It is estimated to be home to about 9,000 trees with over 154 identified species including native trees such magnolias, red oaks, white oaks, and beeches, as well as non-native trees such as the North Africa Atlas cedar, the Chinese parasol and royal paulownia, and the Japanese zelkova and black pine
### Answer: On the campuses of the University of Georgia one can find native tree species such as magnolias, red oaks, white oaks, and beeches. There are also non-native tree species to be found such as the North Africa Atlas cedar, the Chinese parasol and royal paulownia, and the Japanese zelkova and black pine.</s> |
When was MIT founded? | The Massachusetts Institute of Technology (MIT) is a private land-grant research university in Cambridge, Massachusetts. Established in 1861, MIT has played a significant role in the development of many areas of modern technology and science. | 1861 | closed_qa | ### Instruction: When was MIT founded?
### Context: The Massachusetts Institute of Technology (MIT) is a private land-grant research university in Cambridge, Massachusetts. Established in 1861, MIT has played a significant role in the development of many areas of modern technology and science.
### Answer: 1861</s> |
Given this table of train services, how many trains are there between Leeuwarden and Zwolle per day? Explain your math. | Train services
Route Service type Operator Notes
Zwolle – Meppel – Groningen Local ("Sprinters") NS 2x per hour – On Sundays, this train operates 1x per hour until 15:00, then 2x per hour after
Leeuwarden – Heerenveen – Meppel – Zwolle – Amersfoort – Utrecht – Gouda – Rotterdam Express ("Intercity") NS 1x per hour
Leeuwarden – Heerenveen – Meppel – Zwolle – Lelystad – Almere – Amsterdam – Schiphol – Leiden – Den Haag Express ("Intercity") NS 1x per hour
Leeuwarden – Heerenveen – Meppel Local ("Sprinter") NS 2x per hour – 1x per hour after 20:00 and on weekends | There are 48 trains between Leeuwarden and Zwolle per day. The trains from Leeuwarden to Rotterdam travel once an hour, and the trains from Leeuwarden to Den Haag travel once an hour. Since there are 24 hours in a day, and two routes, the total number of daily trains between Leeuwarden and Zwolle per day is 48. If the train service shuts down at night, as is common, there may be fewer than 48 trains between Leeuwarden and Zwolle per day. However, that information is not included in the provided table. | closed_qa | ### Instruction: Given this table of train services, how many trains are there between Leeuwarden and Zwolle per day? Explain your math.
### Context: Train services
Route Service type Operator Notes
Zwolle – Meppel – Groningen Local ("Sprinters") NS 2x per hour – On Sundays, this train operates 1x per hour until 15:00, then 2x per hour after
Leeuwarden – Heerenveen – Meppel – Zwolle – Amersfoort – Utrecht – Gouda – Rotterdam Express ("Intercity") NS 1x per hour
Leeuwarden – Heerenveen – Meppel – Zwolle – Lelystad – Almere – Amsterdam – Schiphol – Leiden – Den Haag Express ("Intercity") NS 1x per hour
Leeuwarden – Heerenveen – Meppel Local ("Sprinter") NS 2x per hour – 1x per hour after 20:00 and on weekends
### Answer: There are 48 trains between Leeuwarden and Zwolle per day. The trains from Leeuwarden to Rotterdam travel once an hour, and the trains from Leeuwarden to Den Haag travel once an hour. Since there are 24 hours in a day, and two routes, the total number of daily trains between Leeuwarden and Zwolle per day is 48. If the train service shuts down at night, as is common, there may be fewer than 48 trains between Leeuwarden and Zwolle per day. However, that information is not included in the provided table.</s> |
Given a reference text about Lotus Mark IX, who designed the car? | The Lotus Mark IX (1955) was an aluminium-bodied sports racing car manufactured by Lotus Engineering Ltd. About thirty of the Mark IX sports racing cars were made. It was closely related to the Lotus model Mark VIII (1954), of which only about seven cars were made. These cars were largely based on the innovative space frame of the Lotus Mark VI (1952). The highly aerodynamic bodies were designed by Frank Costin and constructed by Williams & Pritchard Limited.
During this early era, of 1954–1955, Lotus Engineering was still a fledgling company, and cars were delivered in different states of completion on special orders. Similar to the Mark VIII, the Mark IX was available in various configurations and different engines, including the 1500 cc MG, 1500 cc Connaught and 2-litre Bristol were fitted. However, the Mark IX designation is most often powered by the 1100 cc Coventry Climax engine. Apparently, two models of Mark IX were offered – the "Club" and the "Le Mans", the latter of which had larger drum brakes fitted. | The Lotus Mark IX was designed by Frank Costin. | closed_qa | ### Instruction: Given a reference text about Lotus Mark IX, who designed the car?
### Context: The Lotus Mark IX (1955) was an aluminium-bodied sports racing car manufactured by Lotus Engineering Ltd. About thirty of the Mark IX sports racing cars were made. It was closely related to the Lotus model Mark VIII (1954), of which only about seven cars were made. These cars were largely based on the innovative space frame of the Lotus Mark VI (1952). The highly aerodynamic bodies were designed by Frank Costin and constructed by Williams & Pritchard Limited.
During this early era, of 1954–1955, Lotus Engineering was still a fledgling company, and cars were delivered in different states of completion on special orders. Similar to the Mark VIII, the Mark IX was available in various configurations and different engines, including the 1500 cc MG, 1500 cc Connaught and 2-litre Bristol were fitted. However, the Mark IX designation is most often powered by the 1100 cc Coventry Climax engine. Apparently, two models of Mark IX were offered – the "Club" and the "Le Mans", the latter of which had larger drum brakes fitted.
### Answer: The Lotus Mark IX was designed by Frank Costin.</s> |
Is Belgrandia varica a type of plant? | Belgrandia varica is a species of minute freshwater snail with an operculum, an aquatic gastropod mollusc or micromollusc in the family Hydrobiidae. | No, it is a type of snail. | closed_qa | ### Instruction: Is Belgrandia varica a type of plant?
### Context: Belgrandia varica is a species of minute freshwater snail with an operculum, an aquatic gastropod mollusc or micromollusc in the family Hydrobiidae.
### Answer: No, it is a type of snail.</s> |
Did the dome last as long as it was designed for? | After an ice storm in December 2015, the 13-year-old dome collapsed. It housed several events for indoor track athletes, including practices and meets, practice room for all winter sports teams, physical education classes, and various community events.
The dome was designed by Air Structures American Technologies Inc. and cost $3 million at the time of its construction in 2002. It was meant to last 15–20 years. | No, it did not. The dome only lasted 13 years, but it was designed to last 15-20 years. | closed_qa | ### Instruction: Did the dome last as long as it was designed for?
### Context: After an ice storm in December 2015, the 13-year-old dome collapsed. It housed several events for indoor track athletes, including practices and meets, practice room for all winter sports teams, physical education classes, and various community events.
The dome was designed by Air Structures American Technologies Inc. and cost $3 million at the time of its construction in 2002. It was meant to last 15–20 years.
### Answer: No, it did not. The dome only lasted 13 years, but it was designed to last 15-20 years.</s> |
Tell me about the play Die Schutzbefohlenen | Die Schutzbefohlenen (translated as "Charges (The Supplicants)"[note 1]), is a play by Elfriede Jelinek written in 2013. She termed it a Sprachkunstwerk, a language artwork. It deals critically with the politics at the time concerning refugees. The play was first read in Hamburg on 21 September 2013. The first scenic production was in Mannheim on 23 May 2014. The first production in Austria was staged at the Burgtheater in Vienna on 28 March 2015, which was recognised internationally. Later that year, Jelinek expanded the text to reflect the changed political situation. | Die Schutzbefohlenen, translated as the supplicants is a play by Elfriede Jelinek written in 2013. She termed it a Sprachkunstwerk, a language artwork. It deals critically with the politics at the time concerning refugees. The play was first read in Hamburg on 21 September 2013. The first scenic production was in Mannheim on 23 May 2014.
The first production in Austria was staged at the Burgtheater in Vienna on 28 March 2015, which was recognised internationally. Later that year, Jelinek expanded the text to reflect the changed political situation. | closed_qa | ### Instruction: Tell me about the play Die Schutzbefohlenen
### Context: Die Schutzbefohlenen (translated as "Charges (The Supplicants)"[note 1]), is a play by Elfriede Jelinek written in 2013. She termed it a Sprachkunstwerk, a language artwork. It deals critically with the politics at the time concerning refugees. The play was first read in Hamburg on 21 September 2013. The first scenic production was in Mannheim on 23 May 2014. The first production in Austria was staged at the Burgtheater in Vienna on 28 March 2015, which was recognised internationally. Later that year, Jelinek expanded the text to reflect the changed political situation.
### Answer: Die Schutzbefohlenen, translated as the supplicants is a play by Elfriede Jelinek written in 2013. She termed it a Sprachkunstwerk, a language artwork. It deals critically with the politics at the time concerning refugees. The play was first read in Hamburg on 21 September 2013. The first scenic production was in Mannheim on 23 May 2014.
The first production in Austria was staged at the Burgtheater in Vienna on 28 March 2015, which was recognised internationally. Later that year, Jelinek expanded the text to reflect the changed political situation.</s> |
Given this paragraph about kubernetes, what is the storage layer of Kubernetes control plane? | The Kubernetes master node handles the Kubernetes control plane of the cluster, managing its workload and directing communication across the system. The Kubernetes control plane consists of various components, each its own process, that can run both on a single master node or on multiple masters supporting high-availability clusters. The various components of the Kubernetes control plane are as follows:
etcd is a persistent, lightweight, distributed, key-value data store that CoreOS has developed. It reliably stores the configuration data of the cluster, representing the overall state of the cluster at any given point of time. etcd favors consistency over availability in the event of a network partition (see CAP theorem). The consistency is crucial for correctly scheduling and operating services.
The API server serves the Kubernetes API using JSON over HTTP, which provides both the internal and external interface to Kubernetes. The API server processes and validates REST requests and updates the state of the API objects in etcd, thereby allowing clients to configure workloads and containers across worker nodes. The API server uses etcd's watch API to monitor the cluster, roll out critical configuration changes, or restore any divergences of the state of the cluster back to what the deployer declared. As an example, the deployer may specify that three instances of a particular "pod" (see below) need to be running. etcd stores this fact. If the Deployment Controller finds that only two instances are running (conflicting with the etcd declaration), it schedules the creation of an additional instance of that pod.
The scheduler is the extensible component that selects on which node an unscheduled pod (the basic entity managed by the scheduler) runs, based on resource availability. The scheduler tracks resource use on each node to ensure that workload is not scheduled in excess of available resources. For this purpose, the scheduler must know the resource requirements, resource availability, and other user-provided constraints or policy directives such as quality-of-service, affinity vs. anti-affinity requirements, and data locality. The scheduler's role is to match resource "supply" to workload "demand".
A controller is a reconciliation loop that drives the actual cluster state toward the desired state, communicating with the API server to create, update, and delete the resources it manages (e.g., pods or service endpoints). One kind of controller is a Replication Controller, which handles replication and scaling by running a specified number of copies of a pod across the cluster. It also handles creating replacement pods if the underlying node fails. Other controllers that are part of the core Kubernetes system include a DaemonSet Controller for running exactly one pod on every machine (or some subset of machines), and a Job Controller for running pods that run to completion (e.g., as part of a batch job). Labels selectors that are part of the controller's definition specify the set of pods that a controller manages.
The controller manager is a process that manages a set of core Kubernetes controllers. | ETCD | closed_qa | ### Instruction: Given this paragraph about kubernetes, what is the storage layer of Kubernetes control plane?
### Context: The Kubernetes master node handles the Kubernetes control plane of the cluster, managing its workload and directing communication across the system. The Kubernetes control plane consists of various components, each its own process, that can run both on a single master node or on multiple masters supporting high-availability clusters. The various components of the Kubernetes control plane are as follows:
etcd is a persistent, lightweight, distributed, key-value data store that CoreOS has developed. It reliably stores the configuration data of the cluster, representing the overall state of the cluster at any given point of time. etcd favors consistency over availability in the event of a network partition (see CAP theorem). The consistency is crucial for correctly scheduling and operating services.
The API server serves the Kubernetes API using JSON over HTTP, which provides both the internal and external interface to Kubernetes. The API server processes and validates REST requests and updates the state of the API objects in etcd, thereby allowing clients to configure workloads and containers across worker nodes. The API server uses etcd's watch API to monitor the cluster, roll out critical configuration changes, or restore any divergences of the state of the cluster back to what the deployer declared. As an example, the deployer may specify that three instances of a particular "pod" (see below) need to be running. etcd stores this fact. If the Deployment Controller finds that only two instances are running (conflicting with the etcd declaration), it schedules the creation of an additional instance of that pod.
The scheduler is the extensible component that selects on which node an unscheduled pod (the basic entity managed by the scheduler) runs, based on resource availability. The scheduler tracks resource use on each node to ensure that workload is not scheduled in excess of available resources. For this purpose, the scheduler must know the resource requirements, resource availability, and other user-provided constraints or policy directives such as quality-of-service, affinity vs. anti-affinity requirements, and data locality. The scheduler's role is to match resource "supply" to workload "demand".
A controller is a reconciliation loop that drives the actual cluster state toward the desired state, communicating with the API server to create, update, and delete the resources it manages (e.g., pods or service endpoints). One kind of controller is a Replication Controller, which handles replication and scaling by running a specified number of copies of a pod across the cluster. It also handles creating replacement pods if the underlying node fails. Other controllers that are part of the core Kubernetes system include a DaemonSet Controller for running exactly one pod on every machine (or some subset of machines), and a Job Controller for running pods that run to completion (e.g., as part of a batch job). Labels selectors that are part of the controller's definition specify the set of pods that a controller manages.
The controller manager is a process that manages a set of core Kubernetes controllers.
### Answer: ETCD</s> |
Given this paragraph about the Ain Elzarga Wetland, why is this location one of the most important wetlands in the region? | Ain Elzarga Wetland is a Ramsar-protected wetland of Libya. It was established in 2000 and covers an area of 33 hectares (82 acres). Ramsar says of it: "A small natural sebkha or depression with at least one natural connection to the sea, wet all year round but with increasing water levels and salinity during summer. The sebkha, with mudflats and salt marsh community, is surrounded by dunes from east to west and rocky hills to the south and east. The site is one of the most important wetlands in the area of the El Kouf National Park for migratory waterbirds. The birdwatching and ecotourism potential is considerable but undeveloped. Unsustainable hunting and destruction of vegetation, especially during summer, are considered threats. | The Ain Elzarga Wetland is an important wetland due to being the home for migratory waterbirds. | closed_qa | ### Instruction: Given this paragraph about the Ain Elzarga Wetland, why is this location one of the most important wetlands in the region?
### Context: Ain Elzarga Wetland is a Ramsar-protected wetland of Libya. It was established in 2000 and covers an area of 33 hectares (82 acres). Ramsar says of it: "A small natural sebkha or depression with at least one natural connection to the sea, wet all year round but with increasing water levels and salinity during summer. The sebkha, with mudflats and salt marsh community, is surrounded by dunes from east to west and rocky hills to the south and east. The site is one of the most important wetlands in the area of the El Kouf National Park for migratory waterbirds. The birdwatching and ecotourism potential is considerable but undeveloped. Unsustainable hunting and destruction of vegetation, especially during summer, are considered threats.
### Answer: The Ain Elzarga Wetland is an important wetland due to being the home for migratory waterbirds.</s> |
Who founded Ford | Ford Motor Company (commonly known as Ford) is an American multinational automobile manufacturer headquartered in Dearborn, Michigan, United States. It was founded by Henry Ford and incorporated on June 16, 1903. The company sells automobiles and commercial vehicles under the Ford brand, and luxury cars under its Lincoln luxury brand. Ford also owns Brazilian SUV manufacturer Troller, an 8% stake in Aston Martin of the United Kingdom and a 32% stake in China's Jiangling Motors. It also has joint ventures in China (Changan Ford), Taiwan (Ford Lio Ho), Thailand (AutoAlliance Thailand), and Turkey (Ford Otosan). The company is listed on the New York Stock Exchange and is controlled by the Ford family; they have minority ownership but the majority of the voting power. | Henry Ford founded Ford Motor Company (aka Ford) in on June 16, 1903 in Dearborn Michigan. | closed_qa | ### Instruction: Who founded Ford
### Context: Ford Motor Company (commonly known as Ford) is an American multinational automobile manufacturer headquartered in Dearborn, Michigan, United States. It was founded by Henry Ford and incorporated on June 16, 1903. The company sells automobiles and commercial vehicles under the Ford brand, and luxury cars under its Lincoln luxury brand. Ford also owns Brazilian SUV manufacturer Troller, an 8% stake in Aston Martin of the United Kingdom and a 32% stake in China's Jiangling Motors. It also has joint ventures in China (Changan Ford), Taiwan (Ford Lio Ho), Thailand (AutoAlliance Thailand), and Turkey (Ford Otosan). The company is listed on the New York Stock Exchange and is controlled by the Ford family; they have minority ownership but the majority of the voting power.
### Answer: Henry Ford founded Ford Motor Company (aka Ford) in on June 16, 1903 in Dearborn Michigan.</s> |
Given a reference text about Taylor Fritz, tell me what country he's from and his best finish at a Grand Slam tournament? | Taylor Harry Fritz (born October 28, 1997) is an American professional tennis player. He has a career-high singles ranking of world No. 5 by the Association of Tennis Professionals (ATP), achieved on February 27, 2023, and a doubles ranking of world No. 104, achieved on July 26, 2021. Fritz has won five ATP Tour singles titles, including a Masters 1000 title at the 2022 Indian Wells Masters. His best result in a Grand Slam tournament was reaching the quarterfinals of the 2022 Wimbledon Championships. He is currently the No. 1 American player.
Fritz reached his maiden ATP final in only his third career event, the 2016 Memphis Open. Only one other American, John Isner, has reached an ATP final in fewer career events. He won a junior major singles title at the 2015 US Open, and was the runner-up in junior singles at the 2015 French Open. | Taylor Fritz is from the United States and his best finish in a Grand Slam tournament was reaching the quarterfinals at Wimbledon in 2022. | closed_qa | ### Instruction: Given a reference text about Taylor Fritz, tell me what country he's from and his best finish at a Grand Slam tournament?
### Context: Taylor Harry Fritz (born October 28, 1997) is an American professional tennis player. He has a career-high singles ranking of world No. 5 by the Association of Tennis Professionals (ATP), achieved on February 27, 2023, and a doubles ranking of world No. 104, achieved on July 26, 2021. Fritz has won five ATP Tour singles titles, including a Masters 1000 title at the 2022 Indian Wells Masters. His best result in a Grand Slam tournament was reaching the quarterfinals of the 2022 Wimbledon Championships. He is currently the No. 1 American player.
Fritz reached his maiden ATP final in only his third career event, the 2016 Memphis Open. Only one other American, John Isner, has reached an ATP final in fewer career events. He won a junior major singles title at the 2015 US Open, and was the runner-up in junior singles at the 2015 French Open.
### Answer: Taylor Fritz is from the United States and his best finish in a Grand Slam tournament was reaching the quarterfinals at Wimbledon in 2022.</s> |
Given this paragraph about pyramids , when was the first pyramid built? | The Egyptian pyramids are ancient masonry structures located in Egypt. Sources cite at least 118 identified "Egyptian" pyramids. Approximately 80 pyramids were built within the Kingdom of Kush, now located in the modern country of Sudan. Of those located in modern Egypt, most were built as tombs for the country's pharaohs and their consorts during the Old and Middle Kingdom periods.
The earliest known Egyptian pyramids are found at Saqqara, northwest of Memphis, although at least one step-pyramid-like structure has been found at Saqqara, dating to the First Dynasty: Mastaba 3808, which has been attributed to the reign of Pharaoh Anedjib, with inscriptions, and other archaeological remains of the period, suggesting there may have been others. The otherwise earliest among these is the Pyramid of Djoser built c. 2630–2610 BCE during the Third Dynasty. This pyramid and its surrounding complex are generally considered to be the world's oldest monumental structures constructed of dressed masonry.
The most famous Egyptian pyramids are those found at Giza, on the outskirts of Cairo. Several of the Giza pyramids are counted among the largest structures ever built. The Pyramid of Khufu is the largest Egyptian pyramid. It is the only one of the Seven Wonders of the Ancient World still in existence, despite its being the oldest wonder by about 2,000 years. | 2630–2610 BCE | closed_qa | ### Instruction: Given this paragraph about pyramids , when was the first pyramid built?
### Context: The Egyptian pyramids are ancient masonry structures located in Egypt. Sources cite at least 118 identified "Egyptian" pyramids. Approximately 80 pyramids were built within the Kingdom of Kush, now located in the modern country of Sudan. Of those located in modern Egypt, most were built as tombs for the country's pharaohs and their consorts during the Old and Middle Kingdom periods.
The earliest known Egyptian pyramids are found at Saqqara, northwest of Memphis, although at least one step-pyramid-like structure has been found at Saqqara, dating to the First Dynasty: Mastaba 3808, which has been attributed to the reign of Pharaoh Anedjib, with inscriptions, and other archaeological remains of the period, suggesting there may have been others. The otherwise earliest among these is the Pyramid of Djoser built c. 2630–2610 BCE during the Third Dynasty. This pyramid and its surrounding complex are generally considered to be the world's oldest monumental structures constructed of dressed masonry.
The most famous Egyptian pyramids are those found at Giza, on the outskirts of Cairo. Several of the Giza pyramids are counted among the largest structures ever built. The Pyramid of Khufu is the largest Egyptian pyramid. It is the only one of the Seven Wonders of the Ancient World still in existence, despite its being the oldest wonder by about 2,000 years.
### Answer: 2630–2610 BCE</s> |
Given a reference text about Mushulatubbee, when did he sign the Treaty of Dancing Rabbit Creek | Mushulatubbee (Choctaw AmoshuliTabi, "Determined to Kill") (born c. 1750–1770, died c. 1838) was the chief of the Choctaw Okla Tannap ("Lower Towns"), one of the three major Choctaw divisions during the early 19th century. When the Principal Chief Greenwood LeFlore stayed in Mississippi at the time of removal, Mushulatubbee was elected as principal chief, leading the tribe to Indian Territory.
In 1812 he had led his warriors to assist General Andrew Jackson in the war against the Creek Red Sticks, known as the Creek Wars.
In December 1824 Mushulatubbee was one of three principal chiefs leading a Choctaw delegation to Washington to seek help against encroaching European-American settlers. Pushmataha and Apuckshunubbee were the other chiefs; Apuckshunubbee, age 80, died before they reached Washington, and Pushmataha died of smallpox in the capital soon after their meeting with the government.
On 26 September 1830, together with the Principal Chief Greenwood LeFlore and others, Mushulatubbee signed the Treaty of Dancing Rabbit Creek, which ceded to the US government most of the remaining Choctaw territory in Mississippi and Alabama in exchange for territory in Indian Territory. Other spellings for his name include: Mosholetvbbi, AmoshuliTvbi, Musholatubbee, Moshaleh Tubbee, and Mushulatubba.
Mushulatubbee. | Mushulatubbee signed the Treaty of Dancing Rabbit Creek on September 26, 1830. | closed_qa | ### Instruction: Given a reference text about Mushulatubbee, when did he sign the Treaty of Dancing Rabbit Creek
### Context: Mushulatubbee (Choctaw AmoshuliTabi, "Determined to Kill") (born c. 1750–1770, died c. 1838) was the chief of the Choctaw Okla Tannap ("Lower Towns"), one of the three major Choctaw divisions during the early 19th century. When the Principal Chief Greenwood LeFlore stayed in Mississippi at the time of removal, Mushulatubbee was elected as principal chief, leading the tribe to Indian Territory.
In 1812 he had led his warriors to assist General Andrew Jackson in the war against the Creek Red Sticks, known as the Creek Wars.
In December 1824 Mushulatubbee was one of three principal chiefs leading a Choctaw delegation to Washington to seek help against encroaching European-American settlers. Pushmataha and Apuckshunubbee were the other chiefs; Apuckshunubbee, age 80, died before they reached Washington, and Pushmataha died of smallpox in the capital soon after their meeting with the government.
On 26 September 1830, together with the Principal Chief Greenwood LeFlore and others, Mushulatubbee signed the Treaty of Dancing Rabbit Creek, which ceded to the US government most of the remaining Choctaw territory in Mississippi and Alabama in exchange for territory in Indian Territory. Other spellings for his name include: Mosholetvbbi, AmoshuliTvbi, Musholatubbee, Moshaleh Tubbee, and Mushulatubba.
Mushulatubbee.
### Answer: Mushulatubbee signed the Treaty of Dancing Rabbit Creek on September 26, 1830.</s> |
Why was the Laos team disqualified? | Also on 22 September, the men's doubles team for Sepak Takraw were bronze medalists. The Laos team were disqualified for failure to play their semi-final match. Singapore had the best record of the teams that were eliminated from progression to the semi-finals, which was the fifth best record of all teams after the group stage. The team consisted of Mohamad Farhan Amran, Muhammad Hafiz Nor Izam Ja'afar and Eddy Nor Shafiq Sahari. | The Laos team was disqualified for failure to play their semi-final match. | closed_qa | ### Instruction: Why was the Laos team disqualified?
### Context: Also on 22 September, the men's doubles team for Sepak Takraw were bronze medalists. The Laos team were disqualified for failure to play their semi-final match. Singapore had the best record of the teams that were eliminated from progression to the semi-finals, which was the fifth best record of all teams after the group stage. The team consisted of Mohamad Farhan Amran, Muhammad Hafiz Nor Izam Ja'afar and Eddy Nor Shafiq Sahari.
### Answer: The Laos team was disqualified for failure to play their semi-final match.</s> |
Given this paragraph about Saffron, where does this name originally come from? | A degree of uncertainty surrounds the origin of the English word "saffron". It might stem from the 12th-century Old French term safran, which comes from the Latin word safranum, from the Arabic (زَعْفَرَان), za'farān, which comes from the Persian word zarparan meaning "gold strung" (implying either the golden stamens of the flower or the golden color it creates when used as flavor). | It comes from the Persian word zarparan | closed_qa | ### Instruction: Given this paragraph about Saffron, where does this name originally come from?
### Context: A degree of uncertainty surrounds the origin of the English word "saffron". It might stem from the 12th-century Old French term safran, which comes from the Latin word safranum, from the Arabic (زَعْفَرَان), za'farān, which comes from the Persian word zarparan meaning "gold strung" (implying either the golden stamens of the flower or the golden color it creates when used as flavor).
### Answer: It comes from the Persian word zarparan</s> |
How is a circular economy different than the USA's economy? | A circular economy (also referred to as circularity and CE) is a model of production and consumption, which involves sharing, leasing, reusing, repairing, refurbishing and recycling existing materials and products for as long as possible. CE aims to tackle global challenges such as climate change, biodiversity loss, waste, and pollution by emphasizing the design-based implementation of the three base principles of the model. The three principles required for the transformation to a circular economy are: eliminating waste and pollution, circulating products and materials, and the regeneration of nature. CE is defined in contradistinction to the traditional linear economy. The idea and concepts of circular economy (CE) have been studied extensively in academia, business, and government over the past ten years. CE has been gaining popularity because it helps to minimize emissions and consumption of raw materials, open up new market prospects and principally, increase the sustainability of consumption and improve resource efficiency.
At a government level, CE is viewed as means of combating global warming as well as a facilitator of long-term growth. CE may geographically connect actors and resources to stop material loops at the regional level. In its core principle, the European Parliament defines CE as, “a model of production and consumption, which involves sharing, leasing, reusing, repairing, refurbishing and recycling existing materials and products as long as possible. In this way, the life cycle of products is extended.”
In a linear economy, natural resources are turned into products that are ultimately destined to become waste because of the way they have been designed and manufactured. This process is often summarized by "take, make, waste". By contrast, a circular economy employs reuse, sharing, repair, refurbishment, remanufacturing and recycling to create a closed-loop system, reducing the use of resource inputs and the creation of waste, pollution and carbon emissions. The circular economy aims to keep products, materials, equipment and infrastructure in use for longer, thus improving the productivity of these resources. Waste materials and energy should become input for other processes through waste valorization: either as a component for another industrial process or as regenerative resources for nature (e.g., compost). The Ellen MacArthur Foundation (EMF) defines the circular economy as an industrial economy that is restorative or regenerative by value and design. | A circular economy focuses on the principles of eliminating waste and pollution, circulating products and materials, and the regeneration of nature. In contrast, most capitalistic economies are called "linear" in that raw materials are turned into products which are eventually discarded. While a circular economy focuses on sustainable consumption on an Earth with limited resources, linear economies like the USA's implicitly assume a never-ending supply of raw material inputs. | closed_qa | ### Instruction: How is a circular economy different than the USA's economy?
### Context: A circular economy (also referred to as circularity and CE) is a model of production and consumption, which involves sharing, leasing, reusing, repairing, refurbishing and recycling existing materials and products for as long as possible. CE aims to tackle global challenges such as climate change, biodiversity loss, waste, and pollution by emphasizing the design-based implementation of the three base principles of the model. The three principles required for the transformation to a circular economy are: eliminating waste and pollution, circulating products and materials, and the regeneration of nature. CE is defined in contradistinction to the traditional linear economy. The idea and concepts of circular economy (CE) have been studied extensively in academia, business, and government over the past ten years. CE has been gaining popularity because it helps to minimize emissions and consumption of raw materials, open up new market prospects and principally, increase the sustainability of consumption and improve resource efficiency.
At a government level, CE is viewed as means of combating global warming as well as a facilitator of long-term growth. CE may geographically connect actors and resources to stop material loops at the regional level. In its core principle, the European Parliament defines CE as, “a model of production and consumption, which involves sharing, leasing, reusing, repairing, refurbishing and recycling existing materials and products as long as possible. In this way, the life cycle of products is extended.”
In a linear economy, natural resources are turned into products that are ultimately destined to become waste because of the way they have been designed and manufactured. This process is often summarized by "take, make, waste". By contrast, a circular economy employs reuse, sharing, repair, refurbishment, remanufacturing and recycling to create a closed-loop system, reducing the use of resource inputs and the creation of waste, pollution and carbon emissions. The circular economy aims to keep products, materials, equipment and infrastructure in use for longer, thus improving the productivity of these resources. Waste materials and energy should become input for other processes through waste valorization: either as a component for another industrial process or as regenerative resources for nature (e.g., compost). The Ellen MacArthur Foundation (EMF) defines the circular economy as an industrial economy that is restorative or regenerative by value and design.
### Answer: A circular economy focuses on the principles of eliminating waste and pollution, circulating products and materials, and the regeneration of nature. In contrast, most capitalistic economies are called "linear" in that raw materials are turned into products which are eventually discarded. While a circular economy focuses on sustainable consumption on an Earth with limited resources, linear economies like the USA's implicitly assume a never-ending supply of raw material inputs.</s> |
What is the name of the major school of praxiology not developed by Ludwig von Mises | In philosophy, praxeology or praxiology (/ˌpræksiˈɒlədʒi/; from Ancient Greek πρᾶξις (praxis) 'deed, action', and -λογία (-logia) 'study of') is the theory of human action, based on the notion that humans engage in purposeful behavior, contrary to reflexive behavior and other unintentional behavior.
French social philosopher Alfred Espinas gave the term its modern meaning, and praxeology was developed independently by two principal groups: the Austrian school, led by Ludwig von Mises, and the Polish school, led by Tadeusz Kotarbiński. | The major school of praxiology not developed by Ludwig von Mises is the Polish school, which was led by Tadeusz Kotarbiński. | closed_qa | ### Instruction: What is the name of the major school of praxiology not developed by Ludwig von Mises
### Context: In philosophy, praxeology or praxiology (/ˌpræksiˈɒlədʒi/; from Ancient Greek πρᾶξις (praxis) 'deed, action', and -λογία (-logia) 'study of') is the theory of human action, based on the notion that humans engage in purposeful behavior, contrary to reflexive behavior and other unintentional behavior.
French social philosopher Alfred Espinas gave the term its modern meaning, and praxeology was developed independently by two principal groups: the Austrian school, led by Ludwig von Mises, and the Polish school, led by Tadeusz Kotarbiński.
### Answer: The major school of praxiology not developed by Ludwig von Mises is the Polish school, which was led by Tadeusz Kotarbiński.</s> |
How many seasons of Survivor has there been? | The United States version is produced by Mark Burnett and hosted by Jeff Probst, who also serves as an executive producer. Each competition is called a season, has a unique name, and lasts from 13 to 16 episodes. The first season, Survivor: Borneo, was broadcast as a summer replacement show in 2000. Starting with the third season, Survivor: Africa, there have been two seasons aired during each U.S. television season. Starting with the forty-first season, no subtitle has been used in promotion of the season. Instead, the show began following a number format similar to Big Brother and The Amazing Race.
In the first season, there was a 75-person crew. By season 22, the crew had grown to 325 people.
A total of 662 contestants have competed on Survivor's 44 seasons. | There have been 44 seasons of Survivor. | closed_qa | ### Instruction: How many seasons of Survivor has there been?
### Context: The United States version is produced by Mark Burnett and hosted by Jeff Probst, who also serves as an executive producer. Each competition is called a season, has a unique name, and lasts from 13 to 16 episodes. The first season, Survivor: Borneo, was broadcast as a summer replacement show in 2000. Starting with the third season, Survivor: Africa, there have been two seasons aired during each U.S. television season. Starting with the forty-first season, no subtitle has been used in promotion of the season. Instead, the show began following a number format similar to Big Brother and The Amazing Race.
In the first season, there was a 75-person crew. By season 22, the crew had grown to 325 people.
A total of 662 contestants have competed on Survivor's 44 seasons.
### Answer: There have been 44 seasons of Survivor.</s> |
Where was the heaviest A single filmed? | "Nothing" is the first single by English rock band A released from their album Hi-Fi Serious. It reached number nine in the UK Singles Chart; to date, A's highest charting single. During the promotion of the single, the band appeared on Top of The Pops and the Pepsi Chart Show.
The promotional video for Nothing was filmed in Cape Town, South Africa, mostly around the Artscape Theatre Centre formerly known as the Nico Malan theatre complex, and features extras dressed in the same clothes as each band member - complete with band member masks - to create the illusion that there are hundreds of duplicates of the band.
"Nothing" is arguably the heaviest A single, marking something of a departure from the band's usual melodic pop punk to nu metal. It is track 1 on the album Hi-Fi Serious. A live version appears on the live album, Rockin' Like Dokken. | A's first hit single Nothing was filmed in Cape Town, South Africa. | closed_qa | ### Instruction: Where was the heaviest A single filmed?
### Context: "Nothing" is the first single by English rock band A released from their album Hi-Fi Serious. It reached number nine in the UK Singles Chart; to date, A's highest charting single. During the promotion of the single, the band appeared on Top of The Pops and the Pepsi Chart Show.
The promotional video for Nothing was filmed in Cape Town, South Africa, mostly around the Artscape Theatre Centre formerly known as the Nico Malan theatre complex, and features extras dressed in the same clothes as each band member - complete with band member masks - to create the illusion that there are hundreds of duplicates of the band.
"Nothing" is arguably the heaviest A single, marking something of a departure from the band's usual melodic pop punk to nu metal. It is track 1 on the album Hi-Fi Serious. A live version appears on the live album, Rockin' Like Dokken.
### Answer: A's first hit single Nothing was filmed in Cape Town, South Africa.</s> |
Who is Brandon Sanderson? | Brandon Winn Sanderson (born December 19, 1975) is an American author of high fantasy and science fiction. He is best known for the Cosmere fictional universe, in which most of his fantasy novels, most notably the Mistborn series and The Stormlight Archive, are set. Outside of the Cosmere, he has written several young adult and juvenile series including The Reckoners, the Skyward series, and the Alcatraz series. He is also known for finishing Robert Jordan's high fantasy series The Wheel of Time. Sanderson has created several graphic novel fantasy series, including White Sand and Dark One.
He created Sanderson's Laws of Magic and popularized the idea of "hard magic" and "soft magic" systems. In 2008, Sanderson started a podcast with author Dan Wells and cartoonist Howard Tayler called Writing Excuses, involving topics about creating genre writing and webcomics. In 2016, the American media company DMG Entertainment licensed the movie rights to Sanderson's entire Cosmere universe, but the rights have since reverted back to Sanderson. Sanderson's March 2022 Kickstarter campaign became the most successful in history, finishing with 185,341 backers pledging $41,754,153. | Brandon Sanderson is an American author who primarily writes high fantasy and science fiction. He is known for creating the Cosmere, a fantasy world in which many of his books are set. Among his notable works Cosmere are The Stormlight Archive and the Mistborn series. Beyond the Cosmere, he is also known for writing YA fiction, such as The Reckoners and Skyward series. Additionally, he is known for popularizing the notions of "hard" and "soft" magic systems in fantasy worlds. | closed_qa | ### Instruction: Who is Brandon Sanderson?
### Context: Brandon Winn Sanderson (born December 19, 1975) is an American author of high fantasy and science fiction. He is best known for the Cosmere fictional universe, in which most of his fantasy novels, most notably the Mistborn series and The Stormlight Archive, are set. Outside of the Cosmere, he has written several young adult and juvenile series including The Reckoners, the Skyward series, and the Alcatraz series. He is also known for finishing Robert Jordan's high fantasy series The Wheel of Time. Sanderson has created several graphic novel fantasy series, including White Sand and Dark One.
He created Sanderson's Laws of Magic and popularized the idea of "hard magic" and "soft magic" systems. In 2008, Sanderson started a podcast with author Dan Wells and cartoonist Howard Tayler called Writing Excuses, involving topics about creating genre writing and webcomics. In 2016, the American media company DMG Entertainment licensed the movie rights to Sanderson's entire Cosmere universe, but the rights have since reverted back to Sanderson. Sanderson's March 2022 Kickstarter campaign became the most successful in history, finishing with 185,341 backers pledging $41,754,153.
### Answer: Brandon Sanderson is an American author who primarily writes high fantasy and science fiction. He is known for creating the Cosmere, a fantasy world in which many of his books are set. Among his notable works Cosmere are The Stormlight Archive and the Mistborn series. Beyond the Cosmere, he is also known for writing YA fiction, such as The Reckoners and Skyward series. Additionally, he is known for popularizing the notions of "hard" and "soft" magic systems in fantasy worlds.</s> |
Which movie was originally declared the winner for Best Picture? | The winners were announced during the awards ceremony on February 26, 2017. Moonlight became the first film with an all-black cast and the first LGBT-themed film to win Best Picture. In an event unprecedented in the history of the Oscars, La La Land was incorrectly announced as the Best Picture, and, a few minutes later, the error was corrected and Moonlight was declared the winner. O.J.: Made in America, at 467 minutes, became the longest film to win an Academy Award, surpassing the 431-minute long War and Peace, which won the Academy Award for Best Foreign Language Film in 1969. Following the five-part documentary's win, new academy rules barred any "multi-part or limited series" from being eligible for documentary categories. With Casey Affleck winning the Oscar for Best Actor, he and his older brother, Ben Affleck, became the 16th pair of siblings to win Academy Awards. Mahershala Ali became the first Muslim actor to win an Oscar. Viola Davis became the first black person to achieve the Triple Crown of Acting with her Oscar, Emmy, and Tony wins. | La La Land was originally declared the winner for Best Picture | closed_qa | ### Instruction: Which movie was originally declared the winner for Best Picture?
### Context: The winners were announced during the awards ceremony on February 26, 2017. Moonlight became the first film with an all-black cast and the first LGBT-themed film to win Best Picture. In an event unprecedented in the history of the Oscars, La La Land was incorrectly announced as the Best Picture, and, a few minutes later, the error was corrected and Moonlight was declared the winner. O.J.: Made in America, at 467 minutes, became the longest film to win an Academy Award, surpassing the 431-minute long War and Peace, which won the Academy Award for Best Foreign Language Film in 1969. Following the five-part documentary's win, new academy rules barred any "multi-part or limited series" from being eligible for documentary categories. With Casey Affleck winning the Oscar for Best Actor, he and his older brother, Ben Affleck, became the 16th pair of siblings to win Academy Awards. Mahershala Ali became the first Muslim actor to win an Oscar. Viola Davis became the first black person to achieve the Triple Crown of Acting with her Oscar, Emmy, and Tony wins.
### Answer: La La Land was originally declared the winner for Best Picture</s> |
Of which generation is Jiang the core leader of China | Jiang Zemin (17 August 1926 – 30 November 2022) was a Chinese politician who served as general secretary of the Chinese Communist Party (CCP) from 1989 to 2002, as chairman of the Central Military Commission from 1989 to 2004, and as president of China from 1993 to 2003. Jiang was paramount leader of China from 1989 to 2002. He was the core leader of the third generation of Chinese leadership, one of four core leaders alongside Mao Zedong, Deng Xiaoping and Xi Jinping.
Born in Yangzhou, Jiangsu, Jiang joined the CCP while he was in college. After the establishment of the People's Republic of China in 1949, he received training at the Stalin Automobile Works in Moscow in the 1950s, later returning to Shanghai in 1962 to serve in various institutes, later being sent between 1970-1972 to Romania as part of an expert team to establish machinery manufacturing plants in the country. After 1979, he was appointed as the vice chair of two commissions by vice premier Gu Mu to oversee the newly-established special economic zones (SEZs). He became the vice minister of the newly-established Ministry of Electronics Industry and a member of the CCP Central Committee in 1982.
Jiang was appointed as the mayor of Shanghai in 1985, later being promoted to its Communist Party secretary, as well as a member of the CCP Politburo, in 1987. Jiang came to power unexpectedly as a compromise candidate following the 1989 Tiananmen Square protests and massacre, when he replaced Zhao Ziyang as CCP general secretary after Zhao was ousted for his support for the student movement. As the involvement of the "Eight Elders" in Chinese politics steadily declined, Jiang consolidated his hold on power to become the "paramount leader" in the country during the 1990s. Urged by Deng Xiaoping's southern tour in 1992, Jiang officially introduced the term "socialist market economy" in his speech during the 14th CCP National Congress held later that year, which accelerated "opening up and reform".
Under Jiang's leadership, China experienced substantial economic growth with the continuation of market reforms. The returning of Hong Kong from the United Kingdom in 1997 and of Macau from Portugal in 1999, and entry into the World Trade Organisation in 2001, were landmark moments of his era. China also witnessed improved relations with the outside world, while the Communist Party maintained its tight control over the state. Jiang faced criticism over human rights abuses, including the crackdown on the Falun Gong movement. His contributions to party doctrine, known as the "Three Represents", were written into the CCP constitution in 2002. Jiang gradually vacated his official leadership titles from 2002 to 2005, being succeeded in these roles by Hu Jintao, although he and his political faction continued to influence affairs until much later. On 30 November 2022, Jiang died from leukemia and multiple organ failure in Shanghai. | He is the third generation of Chinese leadership | closed_qa | ### Instruction: Of which generation is Jiang the core leader of China
### Context: Jiang Zemin (17 August 1926 – 30 November 2022) was a Chinese politician who served as general secretary of the Chinese Communist Party (CCP) from 1989 to 2002, as chairman of the Central Military Commission from 1989 to 2004, and as president of China from 1993 to 2003. Jiang was paramount leader of China from 1989 to 2002. He was the core leader of the third generation of Chinese leadership, one of four core leaders alongside Mao Zedong, Deng Xiaoping and Xi Jinping.
Born in Yangzhou, Jiangsu, Jiang joined the CCP while he was in college. After the establishment of the People's Republic of China in 1949, he received training at the Stalin Automobile Works in Moscow in the 1950s, later returning to Shanghai in 1962 to serve in various institutes, later being sent between 1970-1972 to Romania as part of an expert team to establish machinery manufacturing plants in the country. After 1979, he was appointed as the vice chair of two commissions by vice premier Gu Mu to oversee the newly-established special economic zones (SEZs). He became the vice minister of the newly-established Ministry of Electronics Industry and a member of the CCP Central Committee in 1982.
Jiang was appointed as the mayor of Shanghai in 1985, later being promoted to its Communist Party secretary, as well as a member of the CCP Politburo, in 1987. Jiang came to power unexpectedly as a compromise candidate following the 1989 Tiananmen Square protests and massacre, when he replaced Zhao Ziyang as CCP general secretary after Zhao was ousted for his support for the student movement. As the involvement of the "Eight Elders" in Chinese politics steadily declined, Jiang consolidated his hold on power to become the "paramount leader" in the country during the 1990s. Urged by Deng Xiaoping's southern tour in 1992, Jiang officially introduced the term "socialist market economy" in his speech during the 14th CCP National Congress held later that year, which accelerated "opening up and reform".
Under Jiang's leadership, China experienced substantial economic growth with the continuation of market reforms. The returning of Hong Kong from the United Kingdom in 1997 and of Macau from Portugal in 1999, and entry into the World Trade Organisation in 2001, were landmark moments of his era. China also witnessed improved relations with the outside world, while the Communist Party maintained its tight control over the state. Jiang faced criticism over human rights abuses, including the crackdown on the Falun Gong movement. His contributions to party doctrine, known as the "Three Represents", were written into the CCP constitution in 2002. Jiang gradually vacated his official leadership titles from 2002 to 2005, being succeeded in these roles by Hu Jintao, although he and his political faction continued to influence affairs until much later. On 30 November 2022, Jiang died from leukemia and multiple organ failure in Shanghai.
### Answer: He is the third generation of Chinese leadership</s> |
Which is the best work from Goethe? | The most important of Goethe's works produced before he went to Weimar were Götz von Berlichingen (1773), a tragedy that was the first work to bring him recognition, and the novel The Sorrows of Young Werther (German: Die Leiden des jungen Werthers) (1774), which gained him enormous fame as a writer in the Sturm und Drang period which marked the early phase of Romanticism. Indeed, Werther is often considered to be the "spark" which ignited the movement, and can arguably be called the world's first "best-seller". During the years at Weimar before he met Schiller in 1794, he began Wilhelm Meister's Apprenticeship and wrote the dramas Iphigenie auf Tauris (Iphigenia in Tauris), Egmont, and Torquato Tasso and the fable Reineke Fuchs.To the period of his friendship with Schiller belong the conception of Wilhelm Meister's Journeyman Years (the continuation of Wilhelm Meister's Apprenticeship), the idyll of Hermann and Dorothea, the Roman Elegies and the verse drama The Natural Daughter. In the last period, between Schiller's death, in 1805, and his own, appeared Faust Part One (1808), Elective Affinities (1809), the West-Eastern Diwan (an 1819 collection of poems in the Persian style, influenced by the work of Hafez), his autobiographical Aus meinem Leben: Dichtung und Wahrheit (From My Life: Poetry and Truth, published between 1811 and 1833) which covers his early life and ends with his departure for Weimar, his Italian Journey (1816–17), and a series of treatises on art. Faust, Part Two was completed before his 1832 death and published posthumously later that year. His writings were immediately influential in literary and artistic circles. | Assuming that literature is not an exact science and that works cannot be divided into objectively assessable works, such as good, bad or excellent, and that Goethe created a large number of pieces, I will answer the question as follows:
The most important works for Goethe are Goetz von Berlichingen and The Sorrows of Young Werther, since these works gave him initial fame in the Sturm und Drang period. | closed_qa | ### Instruction: Which is the best work from Goethe?
### Context: The most important of Goethe's works produced before he went to Weimar were Götz von Berlichingen (1773), a tragedy that was the first work to bring him recognition, and the novel The Sorrows of Young Werther (German: Die Leiden des jungen Werthers) (1774), which gained him enormous fame as a writer in the Sturm und Drang period which marked the early phase of Romanticism. Indeed, Werther is often considered to be the "spark" which ignited the movement, and can arguably be called the world's first "best-seller". During the years at Weimar before he met Schiller in 1794, he began Wilhelm Meister's Apprenticeship and wrote the dramas Iphigenie auf Tauris (Iphigenia in Tauris), Egmont, and Torquato Tasso and the fable Reineke Fuchs.To the period of his friendship with Schiller belong the conception of Wilhelm Meister's Journeyman Years (the continuation of Wilhelm Meister's Apprenticeship), the idyll of Hermann and Dorothea, the Roman Elegies and the verse drama The Natural Daughter. In the last period, between Schiller's death, in 1805, and his own, appeared Faust Part One (1808), Elective Affinities (1809), the West-Eastern Diwan (an 1819 collection of poems in the Persian style, influenced by the work of Hafez), his autobiographical Aus meinem Leben: Dichtung und Wahrheit (From My Life: Poetry and Truth, published between 1811 and 1833) which covers his early life and ends with his departure for Weimar, his Italian Journey (1816–17), and a series of treatises on art. Faust, Part Two was completed before his 1832 death and published posthumously later that year. His writings were immediately influential in literary and artistic circles.
### Answer: Assuming that literature is not an exact science and that works cannot be divided into objectively assessable works, such as good, bad or excellent, and that Goethe created a large number of pieces, I will answer the question as follows:
The most important works for Goethe are Goetz von Berlichingen and The Sorrows of Young Werther, since these works gave him initial fame in the Sturm und Drang period.</s> |
If the sponsor of the Burns and Allen show was Pee Wee Herman's Big Adventure, the show would be called what? | The title of their top-rated show changed to The George Burns and Gracie Allen Show on September 26, 1936. One successful episode, "Grandpa's 92nd Birthday," aired July 8, 1940. In 1941 they moved from comedy patter into a successful sitcom format, continuing with shows on NBC and CBS until May 17, 1950. As in the early days of radio, the sponsor's name became the show title, such as Maxwell House Coffee Time (1945–49). | The show title would be Adventure Time with Pee-Wee Herman. | closed_qa | ### Instruction: If the sponsor of the Burns and Allen show was Pee Wee Herman's Big Adventure, the show would be called what?
### Context: The title of their top-rated show changed to The George Burns and Gracie Allen Show on September 26, 1936. One successful episode, "Grandpa's 92nd Birthday," aired July 8, 1940. In 1941 they moved from comedy patter into a successful sitcom format, continuing with shows on NBC and CBS until May 17, 1950. As in the early days of radio, the sponsor's name became the show title, such as Maxwell House Coffee Time (1945–49).
### Answer: The show title would be Adventure Time with Pee-Wee Herman.</s> |
What types of ritual use Ayahuasca? | Ayahuasca[note 1] is a South American psychoactive and entheogenic brewed drink traditionally used both socially and as a ceremonial or shamanic spiritual medicine among the indigenous peoples of the Amazon basin, and more recently in North America and Europe. The tea causes altered states of consciousness often known as "psychedelic experiences" which include visual hallucinations and altered perceptions of reality. | Ayahuasca is used both socially and as a ceremonial or shamanic spiritual medicine | closed_qa | ### Instruction: What types of ritual use Ayahuasca?
### Context: Ayahuasca[note 1] is a South American psychoactive and entheogenic brewed drink traditionally used both socially and as a ceremonial or shamanic spiritual medicine among the indigenous peoples of the Amazon basin, and more recently in North America and Europe. The tea causes altered states of consciousness often known as "psychedelic experiences" which include visual hallucinations and altered perceptions of reality.
### Answer: Ayahuasca is used both socially and as a ceremonial or shamanic spiritual medicine</s> |
Where is Black Oak? | Black Oak is a community in White River Township, Washington County, Arkansas, United States. It is located between Greenland and Elkins and lies six miles southeast of Fayetteville.
The community lies along the west bank of the Middle Fork of the White River. The community of Sulphur City lies on the east bank of the river approximately 1.5 mile to the southeast. | Black Oak is a community is Arkansas, United States. | closed_qa | ### Instruction: Where is Black Oak?
### Context: Black Oak is a community in White River Township, Washington County, Arkansas, United States. It is located between Greenland and Elkins and lies six miles southeast of Fayetteville.
The community lies along the west bank of the Middle Fork of the White River. The community of Sulphur City lies on the east bank of the river approximately 1.5 mile to the southeast.
### Answer: Black Oak is a community is Arkansas, United States.</s> |
Given a reference text about No Longer at Ease, tell me the name of the book that precedes it in the trilogy. | No Longer at Ease is a 1960 novel by Nigerian author Chinua Achebe. It is the story of an Igbo man, Obi Okonkwo, who leaves his village for an education in Britain and then a job in the Nigerian colonial civil service, but is conflicted between his African culture and Western lifestyle and ends up taking a bribe. The novel is the second work in what is sometimes referred to as the "African trilogy", following Things Fall Apart and preceding Arrow of God, though Arrow of God chronologically precedes it in the chronology of the trilogy. Things Fall Apart concerns the struggle of Obi Okonkwo's grandfather Okonkwo against the changes brought by the British. | The book that precedes "No Longer at Ease" in the African trilogy is "Things Fall Apart". | closed_qa | ### Instruction: Given a reference text about No Longer at Ease, tell me the name of the book that precedes it in the trilogy.
### Context: No Longer at Ease is a 1960 novel by Nigerian author Chinua Achebe. It is the story of an Igbo man, Obi Okonkwo, who leaves his village for an education in Britain and then a job in the Nigerian colonial civil service, but is conflicted between his African culture and Western lifestyle and ends up taking a bribe. The novel is the second work in what is sometimes referred to as the "African trilogy", following Things Fall Apart and preceding Arrow of God, though Arrow of God chronologically precedes it in the chronology of the trilogy. Things Fall Apart concerns the struggle of Obi Okonkwo's grandfather Okonkwo against the changes brought by the British.
### Answer: The book that precedes "No Longer at Ease" in the African trilogy is "Things Fall Apart".</s> |
Given a reference text about the Kwahu Plateau, tell me its average and highest elevations. | The Kwahu Plateau is a 260 km (160 mi) long plateau in southern Ghana. It consists of the uplifted southern edge of the Volta River Basin. It forms the main watershed of Ghana, separating rivers in the Volta River system from rivers in the western half of Ghana which flows into the Atlantic Ocean (Birim, Pra, Ankobra). The plateau has an average elevation of 1,500 feet and its highest point is Mount Akmawa at 2,586 feet. The plateau is dissected by several valleys and is marked by towering peaks. To the south it borders dense forest country, which it shields from the harmattan winds of the interior. Cacao cultivation has been introduced in the west, through which traditional trade routes lead to the Atlantic; vegetable cultivation is stressed in the eastern sector. The largest and most important towns on the Kwahu Plateau are Wenchi, Mampong, Mpraeso, and Abetifi.[1 | The average and highest elevations of the Kwahu Plateau are 1,500 feet and 2,587 feet, respectively. | closed_qa | ### Instruction: Given a reference text about the Kwahu Plateau, tell me its average and highest elevations.
### Context: The Kwahu Plateau is a 260 km (160 mi) long plateau in southern Ghana. It consists of the uplifted southern edge of the Volta River Basin. It forms the main watershed of Ghana, separating rivers in the Volta River system from rivers in the western half of Ghana which flows into the Atlantic Ocean (Birim, Pra, Ankobra). The plateau has an average elevation of 1,500 feet and its highest point is Mount Akmawa at 2,586 feet. The plateau is dissected by several valleys and is marked by towering peaks. To the south it borders dense forest country, which it shields from the harmattan winds of the interior. Cacao cultivation has been introduced in the west, through which traditional trade routes lead to the Atlantic; vegetable cultivation is stressed in the eastern sector. The largest and most important towns on the Kwahu Plateau are Wenchi, Mampong, Mpraeso, and Abetifi.[1
### Answer: The average and highest elevations of the Kwahu Plateau are 1,500 feet and 2,587 feet, respectively.</s> |
Based on this text, what average temperature in degree celsius can I expect in April in Germany? | From February 2019 – 2020, average monthly temperatures in Germany ranged from a low of 3.3 °C (37.9 °F) in January 2020 to a high of 19.8 °C (67.6 °F) in June 2019. Average monthly precipitation ranged from 30 litres per square metre in February and April 2019 to 125 litres per square metre in February 2020. Average monthly hours of sunshine ranged from 45 in November 2019 to 300 in June 2019. | The average temperature in April in Germany is 13.2 °C. | closed_qa | ### Instruction: Based on this text, what average temperature in degree celsius can I expect in April in Germany?
### Context: From February 2019 – 2020, average monthly temperatures in Germany ranged from a low of 3.3 °C (37.9 °F) in January 2020 to a high of 19.8 °C (67.6 °F) in June 2019. Average monthly precipitation ranged from 30 litres per square metre in February and April 2019 to 125 litres per square metre in February 2020. Average monthly hours of sunshine ranged from 45 in November 2019 to 300 in June 2019.
### Answer: The average temperature in April in Germany is 13.2 °C.</s> |
Given a reference text about LIV Golf, tell me what "LIV" means, when it was started and who financed it. | LIV Golf is a professional golf tour. The name "LIV" refers to the Roman numerals for 54, the score if every hole on a par-72 course were birdied and the number of holes to be played at LIV events. The first LIV Golf Invitational Series event started on 9 June 2022, at the Centurion Club near London, England. The Invitational Series became the LIV Golf League in 2023.
LIV Golf is financed by the Public Investment Fund, the sovereign wealth fund of Saudi Arabia. | LIV refers to the Roman numerals for 54. The first tournament was hosted June 2022 and s funded by the wealth fund of Saudi Arabia | closed_qa | ### Instruction: Given a reference text about LIV Golf, tell me what "LIV" means, when it was started and who financed it.
### Context: LIV Golf is a professional golf tour. The name "LIV" refers to the Roman numerals for 54, the score if every hole on a par-72 course were birdied and the number of holes to be played at LIV events. The first LIV Golf Invitational Series event started on 9 June 2022, at the Centurion Club near London, England. The Invitational Series became the LIV Golf League in 2023.
LIV Golf is financed by the Public Investment Fund, the sovereign wealth fund of Saudi Arabia.
### Answer: LIV refers to the Roman numerals for 54. The first tournament was hosted June 2022 and s funded by the wealth fund of Saudi Arabia</s> |
Who is Octavia Butler? | Octavia Estelle Butler (June 22, 1947 – February 24, 2006) was an American science fiction author and a multiple recipient of the Hugo and Nebula awards. In 1995, Butler became the first science-fiction writer to receive a MacArthur Fellowship. Born in Pasadena, California, Butler was raised by her widowed mother. Extremely shy as a child, Butler found an outlet at the library reading fantasy, and in writing. She began writing science fiction as a teenager. She attended community college during the Black Power movement. While participating in a local writer's workshop, she was encouraged to attend the Clarion Workshop, then held in Pennsylvania, which focused on science fiction. | Octavia Butler was a black Hugo and Nebula awards winning science fiction author from Pasadena, California. | closed_qa | ### Instruction: Who is Octavia Butler?
### Context: Octavia Estelle Butler (June 22, 1947 – February 24, 2006) was an American science fiction author and a multiple recipient of the Hugo and Nebula awards. In 1995, Butler became the first science-fiction writer to receive a MacArthur Fellowship. Born in Pasadena, California, Butler was raised by her widowed mother. Extremely shy as a child, Butler found an outlet at the library reading fantasy, and in writing. She began writing science fiction as a teenager. She attended community college during the Black Power movement. While participating in a local writer's workshop, she was encouraged to attend the Clarion Workshop, then held in Pennsylvania, which focused on science fiction.
### Answer: Octavia Butler was a black Hugo and Nebula awards winning science fiction author from Pasadena, California.</s> |
What are the main functions on a DSLR camera that affect the correct the exposure of an image? | In photography, exposure value (EV) is a number that represents a combination of a camera's shutter speed and f-number, such that all combinations that yield the same exposure have the same EV (for any fixed scene luminance). Exposure value is also used to indicate an interval on the photographic exposure scale, with a difference of 1 EV corresponding to a standard power-of-2 exposure step, commonly referred to as a stop.
The EV concept was developed by the German shutter manufacturer Friedrich Deckel in the 1950s (Gebele 1958; Ray 2000, 318). Its intent was to simplify choosing among equivalent camera exposure settings by replacing combinations of shutter speed and f-number (e.g., 1/125 s at f/16) with a single number (e.g., 15). On some lenses with leaf shutters, the process was further simplified by allowing the shutter and aperture controls to be linked such that, when one was changed, the other was automatically adjusted to maintain the same exposure. This was especially helpful to beginners with limited understanding of the effects of shutter speed and aperture and the relationship between them. But it was also useful for experienced photographers who might choose a shutter speed to stop motion or an f-number for depth of field, because it allowed for faster adjustment—without the need for mental calculations—and reduced the chance of error when making the adjustment. | If a DSLR camera is not set to 'Automatic' mode, there are 3 primary functions that need to be considered when deciding on the correct exposure for your image.
1) the Aperture - how wide the aperture on the lens is set determines how much light can pass through the aperture. A small aperture (e.g. f/16) allows less light to reach the sensor as opposed to a wide aperture (e.g f/2.4).
2) the Shutter Speed - how long the shutter is allowed to remain open after you depress the release on the camera. A short exposure time (e.g. 1/1000 sec) will allow less light to hit the cameras sensor whilst a long exposure (e.g. 1/4 sec) will let more light hit the sensor
3) the ISO setting - this setting is used to control how sensitive the sensor is to light hitting it. A low ISO setting (e.g. ISO 200) is much less sensitive than a high ISO setting (e.g. ISO 1600) which means less light is required to capture the for the image on the sensor.
All 3 of these functions work in tandem to ensure the correct exposure value is created based on the image and effect you are trying to create. | closed_qa | ### Instruction: What are the main functions on a DSLR camera that affect the correct the exposure of an image?
### Context: In photography, exposure value (EV) is a number that represents a combination of a camera's shutter speed and f-number, such that all combinations that yield the same exposure have the same EV (for any fixed scene luminance). Exposure value is also used to indicate an interval on the photographic exposure scale, with a difference of 1 EV corresponding to a standard power-of-2 exposure step, commonly referred to as a stop.
The EV concept was developed by the German shutter manufacturer Friedrich Deckel in the 1950s (Gebele 1958; Ray 2000, 318). Its intent was to simplify choosing among equivalent camera exposure settings by replacing combinations of shutter speed and f-number (e.g., 1/125 s at f/16) with a single number (e.g., 15). On some lenses with leaf shutters, the process was further simplified by allowing the shutter and aperture controls to be linked such that, when one was changed, the other was automatically adjusted to maintain the same exposure. This was especially helpful to beginners with limited understanding of the effects of shutter speed and aperture and the relationship between them. But it was also useful for experienced photographers who might choose a shutter speed to stop motion or an f-number for depth of field, because it allowed for faster adjustment—without the need for mental calculations—and reduced the chance of error when making the adjustment.
### Answer: If a DSLR camera is not set to 'Automatic' mode, there are 3 primary functions that need to be considered when deciding on the correct exposure for your image.
1) the Aperture - how wide the aperture on the lens is set determines how much light can pass through the aperture. A small aperture (e.g. f/16) allows less light to reach the sensor as opposed to a wide aperture (e.g f/2.4).
2) the Shutter Speed - how long the shutter is allowed to remain open after you depress the release on the camera. A short exposure time (e.g. 1/1000 sec) will allow less light to hit the cameras sensor whilst a long exposure (e.g. 1/4 sec) will let more light hit the sensor
3) the ISO setting - this setting is used to control how sensitive the sensor is to light hitting it. A low ISO setting (e.g. ISO 200) is much less sensitive than a high ISO setting (e.g. ISO 1600) which means less light is required to capture the for the image on the sensor.
All 3 of these functions work in tandem to ensure the correct exposure value is created based on the image and effect you are trying to create.</s> |
Who set the first Guinness World Record for swimming under ice? | Swimming under ice. On 16 March 2000, Hof set the Guinness World Record for farthest swim under ice on his second attempt, with a distance of 57.5 metres (188.6 feet). Hof's first attempt the day before failed when he began his swim without goggles and his corneas froze solid and blinded him. A rescue diver pulled him to the surface after he passed out. The record has been broken several times since and is 265 feet (81 m) as of 2022." | On 16 March 2000, Wim Hof set the Guinness World Record for thre farthest swim under ice, with a distance of 57.5 metres (188.6 feet). | closed_qa | ### Instruction: Who set the first Guinness World Record for swimming under ice?
### Context: Swimming under ice. On 16 March 2000, Hof set the Guinness World Record for farthest swim under ice on his second attempt, with a distance of 57.5 metres (188.6 feet). Hof's first attempt the day before failed when he began his swim without goggles and his corneas froze solid and blinded him. A rescue diver pulled him to the surface after he passed out. The record has been broken several times since and is 265 feet (81 m) as of 2022."
### Answer: On 16 March 2000, Wim Hof set the Guinness World Record for thre farthest swim under ice, with a distance of 57.5 metres (188.6 feet).</s> |
Given this paragraph about Yahalom and his works, tell me when he was born? | Yahalom is the author of numerous books and articles on Hebrew poetry, from Byzantine Palestine (5th century CE) to the early modern period. Much of his work explores the connections between Hebrew poetry and the literature of the other groups living in the same time and place, for example, the link between piyyut and Syriac and Greek Christian hymns; between Hebrew poetry from Spain and the emerging romances in European languages; and between early modern mystical Hebrew poetry in the Ottoman Empire and Turkish songs. He also has written extensively about the bilingual (Hebrew and Arabic) culture of Judah Al-Harizi. | Based off of this paragraph, it is clear that Yahalom wrote books and articles "from Byzantine Palestine (5th century CE) to the early modern period". Therefore, it is likely that Yahalom was born in the early modern period or sometime after the early modern period.
The exact date of Yahalom's birth cannot be determined given the provided information. | closed_qa | ### Instruction: Given this paragraph about Yahalom and his works, tell me when he was born?
### Context: Yahalom is the author of numerous books and articles on Hebrew poetry, from Byzantine Palestine (5th century CE) to the early modern period. Much of his work explores the connections between Hebrew poetry and the literature of the other groups living in the same time and place, for example, the link between piyyut and Syriac and Greek Christian hymns; between Hebrew poetry from Spain and the emerging romances in European languages; and between early modern mystical Hebrew poetry in the Ottoman Empire and Turkish songs. He also has written extensively about the bilingual (Hebrew and Arabic) culture of Judah Al-Harizi.
### Answer: Based off of this paragraph, it is clear that Yahalom wrote books and articles "from Byzantine Palestine (5th century CE) to the early modern period". Therefore, it is likely that Yahalom was born in the early modern period or sometime after the early modern period.
The exact date of Yahalom's birth cannot be determined given the provided information.</s> |
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