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Given this reference text about cargo ships, when was the USS West Gate launched?	USS West Gate (ID-3216) was a cargo ship for the United States Navy during World War I. The ship was laid down as SS War Agate, but she was launched in January 1918 as SS West Gate instead.	January 1918	closed_qa	### Instruction: Given this reference text about cargo ships, when was the USS West Gate launched? ### Context: USS West Gate (ID-3216) was a cargo ship for the United States Navy during World War I. The ship was laid down as SS War Agate, but she was launched in January 1918 as SS West Gate instead. ### Answer: January 1918</s>
What is one of Poseidon's many powers?	The Call to Adventure The hero begins in a situation of normality from which some information is received that acts as a call to head off into the unknown. According to Campbell, this region is represented by a distant land, a forest, a kingdom underground, beneath the waves, or above the sky, a secret island, lofty mountaintop, or profound dream state; but it is always a place of strangely fluid and polymorphous beings, unimaginable torments, superhuman deeds, and impossible delight. The hero can go forth of their own volition to accomplish the adventure, as did Theseus when he arrived in his father's city, Athens, and heard the horrible history of the Minotaur; or they may be carried or sent abroad by some benign or malignant agent as was Odysseus, driven about the Mediterranean by the winds of the angered god, Poseidon. The adventure may begin as a mere blunder... or still, again, one may be only casually strolling when some passing phenomenon catches the wandering eye and lures one away from the frequented paths of man. Examples might be multiplied, ad infinitum, from every corner of the world.	Poseidon has power to control the winds that guide ships on the seas of the Mediterranean.	closed_qa	### Instruction: What is one of Poseidon's many powers? ### Context: The Call to Adventure The hero begins in a situation of normality from which some information is received that acts as a call to head off into the unknown. According to Campbell, this region is represented by a distant land, a forest, a kingdom underground, beneath the waves, or above the sky, a secret island, lofty mountaintop, or profound dream state; but it is always a place of strangely fluid and polymorphous beings, unimaginable torments, superhuman deeds, and impossible delight. The hero can go forth of their own volition to accomplish the adventure, as did Theseus when he arrived in his father's city, Athens, and heard the horrible history of the Minotaur; or they may be carried or sent abroad by some benign or malignant agent as was Odysseus, driven about the Mediterranean by the winds of the angered god, Poseidon. The adventure may begin as a mere blunder... or still, again, one may be only casually strolling when some passing phenomenon catches the wandering eye and lures one away from the frequented paths of man. Examples might be multiplied, ad infinitum, from every corner of the world. ### Answer: Poseidon has power to control the winds that guide ships on the seas of the Mediterranean.</s>
What event John Johnstone won as a rider?	John Johnstone (1881-1935) was a British businessman and rider. He was the tai-pan of the Jardine, Matheson & Co., member of the Shanghai Municipal Council and Legislative Council of Hong Kong. He was the head of the Jardine, Matheson & Co. as well as director of numerous companies. He was member of the Shanghai Municipal Council and the Legislative Council of Hong Kong. He was a keen rider and bore the reputation of being the best rider East of the Suez. He succeeded in winning the Jockey Cup on a pony named Ben-y-Gloe belonging to C. H. Ross, the former tai-pan of Jardines when he first went to Hong Kong in 1903. In 1904, he won the Professional Cup on a pony named Runaway Girl, purchased from W. A. Cruickshank. From 1903 to 1919, he rode in 1,178 races, winning 334, securing 192 seconds and 186 thirds, being unplaced 466 times, excluding the record of minor events such as Off Days or Gymkhanas. He won 14 Grand Nationals in China, and at one meeting in Hong Kong rode in 30 races winning 16 of them. He was also the President of the St. Andrew's Society. He left Hong Kong on 31 March 1921 for home by the Empress of Asia. In 1928 he won The Foxhunters Cup at Cheltenham riding Rathpatrick and officiated as steward at several of the northern meetings. He died at the Cheltenham meeting in 1935 where he was officiating.	John Johnstone won the Jockey Cup on a horse named Ben-y-Gloe.	closed_qa	### Instruction: What event John Johnstone won as a rider? ### Context: John Johnstone (1881-1935) was a British businessman and rider. He was the tai-pan of the Jardine, Matheson & Co., member of the Shanghai Municipal Council and Legislative Council of Hong Kong. He was the head of the Jardine, Matheson & Co. as well as director of numerous companies. He was member of the Shanghai Municipal Council and the Legislative Council of Hong Kong. He was a keen rider and bore the reputation of being the best rider East of the Suez. He succeeded in winning the Jockey Cup on a pony named Ben-y-Gloe belonging to C. H. Ross, the former tai-pan of Jardines when he first went to Hong Kong in 1903. In 1904, he won the Professional Cup on a pony named Runaway Girl, purchased from W. A. Cruickshank. From 1903 to 1919, he rode in 1,178 races, winning 334, securing 192 seconds and 186 thirds, being unplaced 466 times, excluding the record of minor events such as Off Days or Gymkhanas. He won 14 Grand Nationals in China, and at one meeting in Hong Kong rode in 30 races winning 16 of them. He was also the President of the St. Andrew's Society. He left Hong Kong on 31 March 1921 for home by the Empress of Asia. In 1928 he won The Foxhunters Cup at Cheltenham riding Rathpatrick and officiated as steward at several of the northern meetings. He died at the Cheltenham meeting in 1935 where he was officiating. ### Answer: John Johnstone won the Jockey Cup on a horse named Ben-y-Gloe.</s>
Given a reference text about James Henry Richards, tell me what sport he played, where he was born and where he died.	James Henry Richards (3 January 1855 – 24 August 1923) was an English cricketer. Richards' batting and bowling styles are unknown. He was born at Brixton, Surrey. Richards made two first-class appearances for Surrey in 1881, against Middlesex at Lord's, and Lancashire at Old Trafford. In his first match, Surrey won the toss and elected to bat first, making 157 all out, with Richards scoring a single run before he was dismissed by Augustus Ford. Middlesex responded in their first-innings by making 192 all out, with Richards taking the wickets of A. J. Webbe and Isaac Walker to finish with figures of 2/40 from 28 overs. Surrey then made just 79 all out in their second-innings, with Richards being dismissed by James Robertson for a duck. This left Middlesex requiring just 45 for victory, which they reached without losing any wickets. In his second match, Lancashire won the toss and elected to bat first, making 324 all out, with Richards bowling fourteen wicketless overs. Surrey responded in their first-innings by making just 69 all out, with Richards being dismissed for 8 runs by Alexander Watson. Forced to follow-on in their second-innings, Surrey were dismissed for 130, with Richards dismissed for a duck by Dick Barlow. Lancashire won the match by an innings and 125 runs. He died at Tulse Hill, London, on 24 August 1923.	James Henry Richards played cricket. He was born in Brixton, Surrey and died in Tulse Hill, London.	closed_qa	### Instruction: Given a reference text about James Henry Richards, tell me what sport he played, where he was born and where he died. ### Context: James Henry Richards (3 January 1855 – 24 August 1923) was an English cricketer. Richards' batting and bowling styles are unknown. He was born at Brixton, Surrey. Richards made two first-class appearances for Surrey in 1881, against Middlesex at Lord's, and Lancashire at Old Trafford. In his first match, Surrey won the toss and elected to bat first, making 157 all out, with Richards scoring a single run before he was dismissed by Augustus Ford. Middlesex responded in their first-innings by making 192 all out, with Richards taking the wickets of A. J. Webbe and Isaac Walker to finish with figures of 2/40 from 28 overs. Surrey then made just 79 all out in their second-innings, with Richards being dismissed by James Robertson for a duck. This left Middlesex requiring just 45 for victory, which they reached without losing any wickets. In his second match, Lancashire won the toss and elected to bat first, making 324 all out, with Richards bowling fourteen wicketless overs. Surrey responded in their first-innings by making just 69 all out, with Richards being dismissed for 8 runs by Alexander Watson. Forced to follow-on in their second-innings, Surrey were dismissed for 130, with Richards dismissed for a duck by Dick Barlow. Lancashire won the match by an innings and 125 runs. He died at Tulse Hill, London, on 24 August 1923. ### Answer: James Henry Richards played cricket. He was born in Brixton, Surrey and died in Tulse Hill, London.</s>
Given a reference text about Easter eggs, tell me what they are, what they symbolize, and where they originated from?	Easter eggs, also called Paschal eggs, are eggs that are decorated for the Christian feast of Easter, which celebrates the resurrection of Jesus. As such, Easter eggs are common during the season of Eastertide (Easter season). The oldest tradition, which continues to be used in Central and Eastern Europe, is to use dyed and painted chicken eggs. Although eggs, in general, were a traditional symbol of fertility and rebirth, in Christianity, for the celebration of Eastertide, Easter eggs symbolize the empty tomb of Jesus, from which Jesus was resurrected. In addition, one ancient tradition was the staining of Easter eggs with the colour red "in memory of the blood of Christ, shed as at that time of his crucifixion." This custom of the Easter egg, according to many sources, can be traced to early Christians of Mesopotamia, and from there it spread into Eastern Europe and Siberia through the Orthodox Churches, and later into Europe through the Catholic and Protestant Churches. Additionally, the widespread usage of Easter eggs, according to mediaevalist scholars, is due to the prohibition of eggs during Lent after which, on Easter, they have been blessed for the occasion. A modern custom in some places is to substitute chocolate eggs wrapped in coloured foil, hand-carved wooden eggs, or plastic eggs filled with confectionery such as chocolate.	Easter eggs are decorated eggs celebrating the Christian holiday of Easter. They symbolize the empty tomb of Jesus. They originated in Mesopotamia.	closed_qa	### Instruction: Given a reference text about Easter eggs, tell me what they are, what they symbolize, and where they originated from? ### Context: Easter eggs, also called Paschal eggs, are eggs that are decorated for the Christian feast of Easter, which celebrates the resurrection of Jesus. As such, Easter eggs are common during the season of Eastertide (Easter season). The oldest tradition, which continues to be used in Central and Eastern Europe, is to use dyed and painted chicken eggs. Although eggs, in general, were a traditional symbol of fertility and rebirth, in Christianity, for the celebration of Eastertide, Easter eggs symbolize the empty tomb of Jesus, from which Jesus was resurrected. In addition, one ancient tradition was the staining of Easter eggs with the colour red "in memory of the blood of Christ, shed as at that time of his crucifixion." This custom of the Easter egg, according to many sources, can be traced to early Christians of Mesopotamia, and from there it spread into Eastern Europe and Siberia through the Orthodox Churches, and later into Europe through the Catholic and Protestant Churches. Additionally, the widespread usage of Easter eggs, according to mediaevalist scholars, is due to the prohibition of eggs during Lent after which, on Easter, they have been blessed for the occasion. A modern custom in some places is to substitute chocolate eggs wrapped in coloured foil, hand-carved wooden eggs, or plastic eggs filled with confectionery such as chocolate. ### Answer: Easter eggs are decorated eggs celebrating the Christian holiday of Easter. They symbolize the empty tomb of Jesus. They originated in Mesopotamia.</s>
Can you tell me something about Stanley J. Goldberg	Stanley J. Goldberg (born Maryland, 1939) is a special trial judge of the United States Tax Court. Goldberg attended public schools in Baltimore, MD. He earned a B.S. from the University of Maryland, School of Business and Public Administration in 1960 and an LL.B. from the University of Maryland School of Law in 1964. He did graduate work in Federal Income Taxation at New York University. Goldberg was admitted to practice in Maryland and New Jersey, 1964 and 1967, and Federal District Court. He began his career as a Tax Attorney in January 1965 with the United States Department of Treasury, Office of Chief Counsel, Internal Revenue Service, in New York City and was initially assigned to the General Litigation function. In 1967, he was reassigned to the Tax Litigation function. In 1976, he was promoted to Special Trial Attorney, and then to Assistant District Counsel in 1984. He was appointed a Special Trial Judge of the United States Tax Court on August 4, 1985. In 1992, Goldberg commented on the trend of tax protester arguments being brought before the Tax Court and dismissed with penalties.	Stanley J. Goldberg (born Maryland, 1939) is a special trial judge of the United States Tax Court. Goldberg attended public schools in Baltimore, MD. He earned a B.S. from the University of Maryland, School of Business and Public Administration in 1960 and an LL.B. from the University of Maryland School of Law in 1964. He did graduate work in Federal Income Taxation at New York University. Goldberg was admitted to practice in Maryland and New Jersey, 1964 and 1967, and Federal District Court. He began his career as a Tax Attorney in January 1965 with the United States Department of Treasury, Office of Chief Counsel, Internal Revenue Service, in New York City and was initially assigned to the General Litigation function. In 1967, he was reassigned to the Tax Litigation function. In 1976, he was promoted to Special Trial Attorney, and then to Assistant District Counsel in 1984. He was appointed a Special Trial Judge of the United States Tax Court on August 4, 1985. In 1992, Goldberg commented on the trend of tax protester arguments being brought before the Tax Court and dismissed with penalties.	closed_qa	### Instruction: Can you tell me something about Stanley J. Goldberg ### Context: Stanley J. Goldberg (born Maryland, 1939) is a special trial judge of the United States Tax Court. Goldberg attended public schools in Baltimore, MD. He earned a B.S. from the University of Maryland, School of Business and Public Administration in 1960 and an LL.B. from the University of Maryland School of Law in 1964. He did graduate work in Federal Income Taxation at New York University. Goldberg was admitted to practice in Maryland and New Jersey, 1964 and 1967, and Federal District Court. He began his career as a Tax Attorney in January 1965 with the United States Department of Treasury, Office of Chief Counsel, Internal Revenue Service, in New York City and was initially assigned to the General Litigation function. In 1967, he was reassigned to the Tax Litigation function. In 1976, he was promoted to Special Trial Attorney, and then to Assistant District Counsel in 1984. He was appointed a Special Trial Judge of the United States Tax Court on August 4, 1985. In 1992, Goldberg commented on the trend of tax protester arguments being brought before the Tax Court and dismissed with penalties. ### Answer: Stanley J. Goldberg (born Maryland, 1939) is a special trial judge of the United States Tax Court. Goldberg attended public schools in Baltimore, MD. He earned a B.S. from the University of Maryland, School of Business and Public Administration in 1960 and an LL.B. from the University of Maryland School of Law in 1964. He did graduate work in Federal Income Taxation at New York University. Goldberg was admitted to practice in Maryland and New Jersey, 1964 and 1967, and Federal District Court. He began his career as a Tax Attorney in January 1965 with the United States Department of Treasury, Office of Chief Counsel, Internal Revenue Service, in New York City and was initially assigned to the General Litigation function. In 1967, he was reassigned to the Tax Litigation function. In 1976, he was promoted to Special Trial Attorney, and then to Assistant District Counsel in 1984. He was appointed a Special Trial Judge of the United States Tax Court on August 4, 1985. In 1992, Goldberg commented on the trend of tax protester arguments being brought before the Tax Court and dismissed with penalties.</s>
What type of physicist is Arup Kumar Raychaudhuri?	Arup Kumar Raychaudhuri (born 1 January 1952) is an Indian condensed matter physicist, materials scientist and a Distinguished Emeritus Professor at the S. N. Bose National Centre for Basic Sciences. Known for his pioneering work on the interplay of disorder and interaction, Raychaudhuri is an elected fellow of all the three major Indian science academies viz. Indian Academy of Sciences, National Academy of Sciences, India and Indian National Science Academy as well as the Asia-Pacific Academy of Materials. He is a recipient of a number of awards such as Millennium Medal of the Indian Science Congress, ICS Gold Medal of the Materials Research Society of India and FICCI Award. The Council of Scientific and Industrial Research, the apex agency of the Government of India for scientific research, awarded him the Shanti Swarup Bhatnagar Prize for Science and Technology, one of the highest Indian science awards, for his contributions to physical sciences in 1994.[note 1]	Arup Kumar Raychaudhuri is a condensed matter physicists.	closed_qa	### Instruction: What type of physicist is Arup Kumar Raychaudhuri? ### Context: Arup Kumar Raychaudhuri (born 1 January 1952) is an Indian condensed matter physicist, materials scientist and a Distinguished Emeritus Professor at the S. N. Bose National Centre for Basic Sciences. Known for his pioneering work on the interplay of disorder and interaction, Raychaudhuri is an elected fellow of all the three major Indian science academies viz. Indian Academy of Sciences, National Academy of Sciences, India and Indian National Science Academy as well as the Asia-Pacific Academy of Materials. He is a recipient of a number of awards such as Millennium Medal of the Indian Science Congress, ICS Gold Medal of the Materials Research Society of India and FICCI Award. The Council of Scientific and Industrial Research, the apex agency of the Government of India for scientific research, awarded him the Shanti Swarup Bhatnagar Prize for Science and Technology, one of the highest Indian science awards, for his contributions to physical sciences in 1994.[note 1] ### Answer: Arup Kumar Raychaudhuri is a condensed matter physicists.</s>
According to this paragraph, what are the "Old Dorms" at the University of Virginia?	The primary housing areas for first-year students are McCormick Road Dormitories, often called "Old Dorms", and Alderman Road Dormitories, often called "New Dorms". The 1970s-era Alderman Road Dorms are being fully replaced with brand new dormitory buildings in the same area. The replacements feature hall-style living arrangements with common areas and many modern amenities. Instead of being torn down and replaced like the original New Dorms, the Old Dorms will see a $105 million renovation project between 2017 and 2022. They were constructed in 1950, and are also hall-style constructions but with fewer amenities. The Old Dorms are closer to the students' classes.	The "Old Dorms" at the University of Virginia often refer to the primary housing area for first-year students on McCormick Road.	closed_qa	### Instruction: According to this paragraph, what are the "Old Dorms" at the University of Virginia? ### Context: The primary housing areas for first-year students are McCormick Road Dormitories, often called "Old Dorms", and Alderman Road Dormitories, often called "New Dorms". The 1970s-era Alderman Road Dorms are being fully replaced with brand new dormitory buildings in the same area. The replacements feature hall-style living arrangements with common areas and many modern amenities. Instead of being torn down and replaced like the original New Dorms, the Old Dorms will see a $105 million renovation project between 2017 and 2022. They were constructed in 1950, and are also hall-style constructions but with fewer amenities. The Old Dorms are closer to the students' classes. ### Answer: The "Old Dorms" at the University of Virginia often refer to the primary housing area for first-year students on McCormick Road.</s>
Given the referenced text, what Roman Emperor gave Roman Citizenship to all free men?	The third century AD showed some remarkable development for the empire as well as a potential decline and collapse. Emperor Caracalla's edict in 212 AD known as the Antoninian constitution delivered Roman citizenship to every free man in the empire, starting the decline of the importance of the city of Rome and indeed of Roman Italy for the Roman Empire. By the mid-third century AD, Pax Romana had come to an end, and several crises hit the empire simultaneously in a period known to history as the Crisis of the third century. This period saw the empire exposed to rampant inflation, natural disasters, secession and civil wars taking places over several decades. The secessions ended with emperor Aurelian’s conquest of the secessionist Palmyrene Empire and Gallic Empire in 273 and 274 AD, as Aurelian unified a splintered empire which, according to many historians, should have been doomed. However, Aurelian was assassinated in 276 AD, sparking additional civil wars. The crisis came to an end only through the ascension of emperor Diocletian to the throne. The West suffered more heavily from these decades of crisis due to this distinction between the established and more prosperous Hellenised East and the younger colonized and Romanized West that had persisted. This cultural division of the Roman Empire into an eastern Greek and western Latin part became increasingly important in later centuries, leading to a gradual estrangement of the two Roman worlds. Emperor Diocletian created the administrative system known as the Dominate to guarantee security in all endangered regions of his empire. The dominate was in comparison with the principate, a huge imperial bureaucracy, which laid the foundations for the power structure of the later Eastern Roman Empire. With this came a redistricting and reduction of Roman provinces. Diocletian scrapped any pretense of republican rule as the emperor moved away from formally being merely "Princeps" to being "Dominus" - Lord and master. Diocletian also formally finished the process of restructuring the empire, from being a colonial-styled empire ruled by Rome and Roman Italians in the first century AD to a larger imperial entity where the emperor's court was not bound to the city of Rome or Italy, now only one Roman imperial province among many. The norm of emperors being Roman Italians was first broken by emperor Trajan who came from Hispania. By the time of the Severan dynasty, most emperors were originating from outside of Italy. When Diocletian introduced his reforms, this had the effect of the Roman Senate formally lost its already declining imperial influence and became a de facto regional body of decision-making. An early instance of the partition of the empire into East and West occurred in 286, when Emperor Diocletian appointed Maximian as augustus of the West. In 293 AD, the empire went through a devolution under Diocletian known as the Tetrarchy. The empire was split into four, with the two most prominent parts of the empire each ruled by one emperor (Augustus). Each co-emperor then appointed a young colleague as caesar to be a subordinate emperor with control over his own territory. The Caesar shared power with and would eventually succeed the senior partner. Each tetrarch was in charge of a part of the empire, with the divisions based on geographic regions. This devolution outlines the coming split 100 years later when the empire was permanently divided into an eastern and western empire. The tetrarchy however only lasted 20 years, as emperors quickly began fighting each other for power. The whole empire was eventually reunited by Constantine the Great in 324 after he ended the last of these civil wars.	Emperor Caracalla gave Roman Citizenship to all free men in the Roman Empire.	closed_qa	### Instruction: Given the referenced text, what Roman Emperor gave Roman Citizenship to all free men? ### Context: The third century AD showed some remarkable development for the empire as well as a potential decline and collapse. Emperor Caracalla's edict in 212 AD known as the Antoninian constitution delivered Roman citizenship to every free man in the empire, starting the decline of the importance of the city of Rome and indeed of Roman Italy for the Roman Empire. By the mid-third century AD, Pax Romana had come to an end, and several crises hit the empire simultaneously in a period known to history as the Crisis of the third century. This period saw the empire exposed to rampant inflation, natural disasters, secession and civil wars taking places over several decades. The secessions ended with emperor Aurelian’s conquest of the secessionist Palmyrene Empire and Gallic Empire in 273 and 274 AD, as Aurelian unified a splintered empire which, according to many historians, should have been doomed. However, Aurelian was assassinated in 276 AD, sparking additional civil wars. The crisis came to an end only through the ascension of emperor Diocletian to the throne. The West suffered more heavily from these decades of crisis due to this distinction between the established and more prosperous Hellenised East and the younger colonized and Romanized West that had persisted. This cultural division of the Roman Empire into an eastern Greek and western Latin part became increasingly important in later centuries, leading to a gradual estrangement of the two Roman worlds. Emperor Diocletian created the administrative system known as the Dominate to guarantee security in all endangered regions of his empire. The dominate was in comparison with the principate, a huge imperial bureaucracy, which laid the foundations for the power structure of the later Eastern Roman Empire. With this came a redistricting and reduction of Roman provinces. Diocletian scrapped any pretense of republican rule as the emperor moved away from formally being merely "Princeps" to being "Dominus" - Lord and master. Diocletian also formally finished the process of restructuring the empire, from being a colonial-styled empire ruled by Rome and Roman Italians in the first century AD to a larger imperial entity where the emperor's court was not bound to the city of Rome or Italy, now only one Roman imperial province among many. The norm of emperors being Roman Italians was first broken by emperor Trajan who came from Hispania. By the time of the Severan dynasty, most emperors were originating from outside of Italy. When Diocletian introduced his reforms, this had the effect of the Roman Senate formally lost its already declining imperial influence and became a de facto regional body of decision-making. An early instance of the partition of the empire into East and West occurred in 286, when Emperor Diocletian appointed Maximian as augustus of the West. In 293 AD, the empire went through a devolution under Diocletian known as the Tetrarchy. The empire was split into four, with the two most prominent parts of the empire each ruled by one emperor (Augustus). Each co-emperor then appointed a young colleague as caesar to be a subordinate emperor with control over his own territory. The Caesar shared power with and would eventually succeed the senior partner. Each tetrarch was in charge of a part of the empire, with the divisions based on geographic regions. This devolution outlines the coming split 100 years later when the empire was permanently divided into an eastern and western empire. The tetrarchy however only lasted 20 years, as emperors quickly began fighting each other for power. The whole empire was eventually reunited by Constantine the Great in 324 after he ended the last of these civil wars. ### Answer: Emperor Caracalla gave Roman Citizenship to all free men in the Roman Empire.</s>
What is Bubble tea?	Bubble tea (also known as pearl milk tea, bubble milk tea, tapioca milk tea, boba tea, or boba; Chinese: 珍珠奶茶; pinyin: zhēnzhū nǎichá, 波霸奶茶; bōbà nǎichá) is a tea-based drink that originated in Taiwan in the early 1980s. Taiwanese immigrants brought it to the United States in the 1990s, initially in California through regions like Los Angeles County, but the drink has also spread to other countries where there is a large East Asian diaspora population. Bubble tea most commonly consists of tea accompanied by chewy tapioca balls ("boba" or "pearls"), but it can be made with other toppings as well, such as grass jelly, aloe vera, red bean, or popping boba. It has many varieties and flavors, but the two most popular varieties are pearl black milk tea and pearl green milk tea ("pearl" signifies the tapioca balls at the bottom).	Boba tea is a very delicious drink originally from Taiwan. It started with cold milk tea with tapioca balls in the early 1990s. When the demand gets so popular, the boba tea store owner tries to be fancier by adding different toppings such as grass jelly, pudding cluster, aloe vera, red beans, gummy, mochi and fruit bites. In addition, many store owners become more creative by using different flavors of tea (black, green, oolong, jasmine and other fragrance tea) as a drink base to outstand other competitors.	closed_qa	### Instruction: What is Bubble tea? ### Context: Bubble tea (also known as pearl milk tea, bubble milk tea, tapioca milk tea, boba tea, or boba; Chinese: 珍珠奶茶; pinyin: zhēnzhū nǎichá, 波霸奶茶; bōbà nǎichá) is a tea-based drink that originated in Taiwan in the early 1980s. Taiwanese immigrants brought it to the United States in the 1990s, initially in California through regions like Los Angeles County, but the drink has also spread to other countries where there is a large East Asian diaspora population. Bubble tea most commonly consists of tea accompanied by chewy tapioca balls ("boba" or "pearls"), but it can be made with other toppings as well, such as grass jelly, aloe vera, red bean, or popping boba. It has many varieties and flavors, but the two most popular varieties are pearl black milk tea and pearl green milk tea ("pearl" signifies the tapioca balls at the bottom). ### Answer: Boba tea is a very delicious drink originally from Taiwan. It started with cold milk tea with tapioca balls in the early 1990s. When the demand gets so popular, the boba tea store owner tries to be fancier by adding different toppings such as grass jelly, pudding cluster, aloe vera, red beans, gummy, mochi and fruit bites. In addition, many store owners become more creative by using different flavors of tea (black, green, oolong, jasmine and other fragrance tea) as a drink base to outstand other competitors.</s>
Does Jukebox contain many original songs?	Jukebox is the eleventh studio album by Australian pop vocal group Human Nature released in October 2014. It contains covers from the 1950s and 1960s, with one original song, "End of Days"	No, it contains covers from the 1950s and 1960s, with only one original song.	closed_qa	### Instruction: Does Jukebox contain many original songs? ### Context: Jukebox is the eleventh studio album by Australian pop vocal group Human Nature released in October 2014. It contains covers from the 1950s and 1960s, with one original song, "End of Days" ### Answer: No, it contains covers from the 1950s and 1960s, with only one original song.</s>
How does the "fire power" help Fargus?	Pandemonium 2 is a psychedelic 2.5D game; specifically, it renders characters and environments with polygons and uses a 3D camera to create the appearance of 3-D, while gameplay is actually on a 2-D plane. Players can choose to be either Nikki or Fargus - who each have different specialties - with the option to change for each level. The player characters' abilities have been expanded over those in Pandemonium! with the ability to climb ropes, crawl, and pull themselves up ledges. During the quest, players can earn extra lives by collecting treasure. Unique powers collected during gameplay may replace, extend or add to previous powers, depending on which character is in play and which power has been obtained. The characters handle the unique powers differently. For instance, collecting the "fire power" allows Nikki to shoot destructive fireballs, while it grants Fargus invincibility and a deadly touch, but requires him to constantly move forward. Machines and equipment are also available throughout the game, although they are tied to certain areas.	It grants Fargus invincibility and a deadly touch.	closed_qa	### Instruction: How does the "fire power" help Fargus? ### Context: Pandemonium 2 is a psychedelic 2.5D game; specifically, it renders characters and environments with polygons and uses a 3D camera to create the appearance of 3-D, while gameplay is actually on a 2-D plane. Players can choose to be either Nikki or Fargus - who each have different specialties - with the option to change for each level. The player characters' abilities have been expanded over those in Pandemonium! with the ability to climb ropes, crawl, and pull themselves up ledges. During the quest, players can earn extra lives by collecting treasure. Unique powers collected during gameplay may replace, extend or add to previous powers, depending on which character is in play and which power has been obtained. The characters handle the unique powers differently. For instance, collecting the "fire power" allows Nikki to shoot destructive fireballs, while it grants Fargus invincibility and a deadly touch, but requires him to constantly move forward. Machines and equipment are also available throughout the game, although they are tied to certain areas. ### Answer: It grants Fargus invincibility and a deadly touch.</s>
Based on the provided text, In what year did the National Gallery of Ireland open its doors to the public and what kind of art is it known for?	The National Gallery of Ireland (Irish: Gailearaí Náisiúnta na hÉireann) houses the national collection of Irish and European art. It is located in the centre of Dublin with one entrance on Merrion Square, beside Leinster House, and another on Clare Street. It was founded in 1854 and opened its doors ten years later. The gallery has an extensive, representative collection of Irish paintings and is also notable for its Italian Baroque and Dutch masters painting. The current director is Caroline Campbell.	The National Gallery of Ireland opened in 1864 and is known for its Irish, Italian Baroque, and Dutch masters paintings	closed_qa	### Instruction: Based on the provided text, In what year did the National Gallery of Ireland open its doors to the public and what kind of art is it known for? ### Context: The National Gallery of Ireland (Irish: Gailearaí Náisiúnta na hÉireann) houses the national collection of Irish and European art. It is located in the centre of Dublin with one entrance on Merrion Square, beside Leinster House, and another on Clare Street. It was founded in 1854 and opened its doors ten years later. The gallery has an extensive, representative collection of Irish paintings and is also notable for its Italian Baroque and Dutch masters painting. The current director is Caroline Campbell. ### Answer: The National Gallery of Ireland opened in 1864 and is known for its Irish, Italian Baroque, and Dutch masters paintings</s>
History of Linux	The Unix operating system was conceived and implemented in 1969, at AT&T's Bell Labs, in the United States by Ken Thompson, Dennis Ritchie, Douglas McIlroy, and Joe Ossanna. First released in 1971, Unix was written entirely in assembly language, as was common practice at the time. In 1973, in a key pioneering approach, it was rewritten in the C programming language by Dennis Ritchie (with the exception of some hardware and I/O routines). The availability of a high-level language implementation of Unix made its porting to different computer platforms easier. Due to an earlier antitrust case forbidding it from entering the computer business, AT&T licensed the operating system's source code as a trade secret to anyone who asked. As a result, Unix grew quickly and became widely adopted by academic institutions and businesses. In 1984, AT&T divested itself of its regional operating companies, and was released from its obligation not to enter the computer business; freed of that obligation, Bell Labs began selling Unix as a proprietary product, where users were not legally allowed to modify it. Onyx Systems began selling early microcomputer-based Unix workstations in 1980. Later, Sun Microsystems, founded as a spin-off of a student project at Stanford University, also began selling Unix-based desktop workstations in 1982. While Sun workstations didn't utilize commodity PC hardware like Linux was later developed for, it represented the first successful commercial attempt at distributing a primarily single-user microcomputer that ran a Unix operating system. With Unix increasingly "locked in" as a proprietary product, the GNU Project, started in 1983 by Richard Stallman, had the goal of creating a "complete Unix-compatible software system" composed entirely of free software. Work began in 1984. Later, in 1985, Stallman started the Free Software Foundation and wrote the GNU General Public License (GNU GPL) in 1989. By the early 1990s, many of the programs required in an operating system (such as libraries, compilers, text editors, a command-line shell, and a windowing system) were completed, although low-level elements such as device drivers, daemons, and the kernel, called GNU Hurd, were stalled and incomplete. MINIX was created by Andrew S. Tanenbaum, a computer science professor, and released in 1987 as a minimal Unix-like operating system targeted at students and others who wanted to learn operating system principles. Although the complete source code of MINIX was freely available, the licensing terms prevented it from being free software until the licensing changed in April 2000. Although not released until 1992, due to legal complications, development of 386BSD, from which NetBSD, OpenBSD and FreeBSD descended, predated that of Linux. Linus Torvalds has stated on separate occasions that if the GNU kernel or 386BSD had been available at the time (1991), he probably would not have created Linux.	Linux, computer operating system created in the early 1990s by Finnish software engineer Linus Torvalds and the Free Software Foundation (FSF). While still a student at the University of Helsinki, Torvalds started developing Linux to create a system similar to MINIX, a UNIX operating system. In 1991 he released version 0.02; Version 1.0 of the Linux kernel, the core of the operating system, was released in 1994. About the same time, American software developer Richard Stallman and the FSF made efforts to create an open-source UNIX-like operating system called GNU. In contrast to Torvalds, Stallman and the FSF started by creating utilities for the operating system first. These utilities were then added to the Linux kernel to create a complete system called GNU/Linux, or, less precisely, just Linux.	closed_qa	### Instruction: History of Linux ### Context: The Unix operating system was conceived and implemented in 1969, at AT&T's Bell Labs, in the United States by Ken Thompson, Dennis Ritchie, Douglas McIlroy, and Joe Ossanna. First released in 1971, Unix was written entirely in assembly language, as was common practice at the time. In 1973, in a key pioneering approach, it was rewritten in the C programming language by Dennis Ritchie (with the exception of some hardware and I/O routines). The availability of a high-level language implementation of Unix made its porting to different computer platforms easier. Due to an earlier antitrust case forbidding it from entering the computer business, AT&T licensed the operating system's source code as a trade secret to anyone who asked. As a result, Unix grew quickly and became widely adopted by academic institutions and businesses. In 1984, AT&T divested itself of its regional operating companies, and was released from its obligation not to enter the computer business; freed of that obligation, Bell Labs began selling Unix as a proprietary product, where users were not legally allowed to modify it. Onyx Systems began selling early microcomputer-based Unix workstations in 1980. Later, Sun Microsystems, founded as a spin-off of a student project at Stanford University, also began selling Unix-based desktop workstations in 1982. While Sun workstations didn't utilize commodity PC hardware like Linux was later developed for, it represented the first successful commercial attempt at distributing a primarily single-user microcomputer that ran a Unix operating system. With Unix increasingly "locked in" as a proprietary product, the GNU Project, started in 1983 by Richard Stallman, had the goal of creating a "complete Unix-compatible software system" composed entirely of free software. Work began in 1984. Later, in 1985, Stallman started the Free Software Foundation and wrote the GNU General Public License (GNU GPL) in 1989. By the early 1990s, many of the programs required in an operating system (such as libraries, compilers, text editors, a command-line shell, and a windowing system) were completed, although low-level elements such as device drivers, daemons, and the kernel, called GNU Hurd, were stalled and incomplete. MINIX was created by Andrew S. Tanenbaum, a computer science professor, and released in 1987 as a minimal Unix-like operating system targeted at students and others who wanted to learn operating system principles. Although the complete source code of MINIX was freely available, the licensing terms prevented it from being free software until the licensing changed in April 2000. Although not released until 1992, due to legal complications, development of 386BSD, from which NetBSD, OpenBSD and FreeBSD descended, predated that of Linux. Linus Torvalds has stated on separate occasions that if the GNU kernel or 386BSD had been available at the time (1991), he probably would not have created Linux. ### Answer: Linux, computer operating system created in the early 1990s by Finnish software engineer Linus Torvalds and the Free Software Foundation (FSF). While still a student at the University of Helsinki, Torvalds started developing Linux to create a system similar to MINIX, a UNIX operating system. In 1991 he released version 0.02; Version 1.0 of the Linux kernel, the core of the operating system, was released in 1994. About the same time, American software developer Richard Stallman and the FSF made efforts to create an open-source UNIX-like operating system called GNU. In contrast to Torvalds, Stallman and the FSF started by creating utilities for the operating system first. These utilities were then added to the Linux kernel to create a complete system called GNU/Linux, or, less precisely, just Linux.</s>
Given a reference text about Amanecer, who made the album and what viral song did it include?	Amanecer is an album by Bomba Estéreo. It earned Bomba Estéreo a Latin Grammy Award nomination for Best Alternative Music Album and a Grammy Award nomination for Best Latin Rock, Urban or Alternative Album. It peaked at number 17 on the Billboard Top Latin Albums chart. It was also considered the best Latin album of 2015 by Rolling Stone. It includes the viral hit "Soy Yo", which features Costa Rican child star Sarai Gonzalez, and received over 109 million views on YouTube. The song and video were called a "celebration of self and a symbol of proud Latinidad" and "an ode to brown girls".	Bomba Estéreo made the album Amanecer. The album includes the viral song "Soy Yo".	closed_qa	### Instruction: Given a reference text about Amanecer, who made the album and what viral song did it include? ### Context: Amanecer is an album by Bomba Estéreo. It earned Bomba Estéreo a Latin Grammy Award nomination for Best Alternative Music Album and a Grammy Award nomination for Best Latin Rock, Urban or Alternative Album. It peaked at number 17 on the Billboard Top Latin Albums chart. It was also considered the best Latin album of 2015 by Rolling Stone. It includes the viral hit "Soy Yo", which features Costa Rican child star Sarai Gonzalez, and received over 109 million views on YouTube. The song and video were called a "celebration of self and a symbol of proud Latinidad" and "an ode to brown girls". ### Answer: Bomba Estéreo made the album Amanecer. The album includes the viral song "Soy Yo".</s>
Based on this paragraph, who directed "Before Morning?"	Before Morning is a 1933 American pre-Code crime drama directed by Arthur Hoerl, and starring Leo Carrillo, Lora Baxter, and Taylor Holmes. The film was adapted for the screen by Arthur Hoerl, from the 1933 Broadway play of the same name by Edward and Edna Riley.	Arthur Hoerl	closed_qa	### Instruction: Based on this paragraph, who directed "Before Morning?" ### Context: Before Morning is a 1933 American pre-Code crime drama directed by Arthur Hoerl, and starring Leo Carrillo, Lora Baxter, and Taylor Holmes. The film was adapted for the screen by Arthur Hoerl, from the 1933 Broadway play of the same name by Edward and Edna Riley. ### Answer: Arthur Hoerl</s>
Who wrote the book that the TV show Shantaram is based on?	Some types of oysters are commonly consumed (cooked or raw), and in some locales are regarded as a delicacy. Some types of pearl oysters are harvested for the pearl produced within the mantle. Windowpane oysters are harvested for their translucent shells, which are used to make various kinds of decorative objects.	Gregory David Roberts wrote the novel Shantaram.	closed_qa	### Instruction: Who wrote the book that the TV show Shantaram is based on? ### Context: Some types of oysters are commonly consumed (cooked or raw), and in some locales are regarded as a delicacy. Some types of pearl oysters are harvested for the pearl produced within the mantle. Windowpane oysters are harvested for their translucent shells, which are used to make various kinds of decorative objects. ### Answer: Gregory David Roberts wrote the novel Shantaram.</s>
Where is Pompeii located?	Pompeii (/pɒmˈpeɪ(i)/, Latin: [pɔmˈpei̯.iː]) was an ancient city located in what is now the comune of Pompei near Naples in the Campania region of Italy. Pompeii, along with Herculaneum and many villas in the surrounding area (e.g. at Boscoreale, Stabiae), was buried under 4 to 6 m (13 to 20 ft) of volcanic ash and pumice in the Eruption of Mount Vesuvius in 79 AD.	The ancient city of Pompeii is located near Naples in the Campania region of Italy.	closed_qa	### Instruction: Where is Pompeii located? ### Context: Pompeii (/pɒmˈpeɪ(i)/, Latin: [pɔmˈpei̯.iː]) was an ancient city located in what is now the comune of Pompei near Naples in the Campania region of Italy. Pompeii, along with Herculaneum and many villas in the surrounding area (e.g. at Boscoreale, Stabiae), was buried under 4 to 6 m (13 to 20 ft) of volcanic ash and pumice in the Eruption of Mount Vesuvius in 79 AD. ### Answer: The ancient city of Pompeii is located near Naples in the Campania region of Italy.</s>
Given this paragraph about the climate in Fairmont, West Virginia, what was the coldest month in the city's history, and what was the average temperature during that month?	Fairmont has a humid continental climate (Köppen Dfa) with very warm summers and freezing winters. However, it is not uncommon during winter for warm air from the Gulf of Mexico to raise temperatures above 50 °F or 10 °C, which occurs on average six times each January and over eight in December and February. In contrast, when very cold air from Canada moves into West Virginia temperatures can go below 0 °F or −17.8 °C, which can be expected during 3.2 mornings each winter, but which occurred on twelve mornings during the extremely cold January 1977, whose average temperature of 16.0 °F or −8.9 °C was the coldest month on record by 4.0 °F or 2.2 °C. Despite the abundant precipitation throughout the year, the relative dryness of cold air means that most precipitation is rain even during the winter: the most snowfall in a month being 46.5 inches (1.18 m) is November 1950, and the most in a season 77.4 inches (1.97 m) between July 1950 and June 1951. The least snow in a season has been 12.0 inches (0.30 m) between July 1918 and June 1919, whilst the wettest calendar year has been 1956 with 58.12 inches (1,476.2 mm) and the driest – as with all of West Virginia – 1930 with 26.25 inches (666.8 mm). The hottest temperature has been 108 °F (42.2 °C) on August 8, 1918, and the coldest −21 °F (−29.4 °C) on January 21, 1994.	January of 1977 was the coldest month in the history of Fairmont, West Virginia with an average of 16.0 degrees Farenheit.	closed_qa	### Instruction: Given this paragraph about the climate in Fairmont, West Virginia, what was the coldest month in the city's history, and what was the average temperature during that month? ### Context: Fairmont has a humid continental climate (Köppen Dfa) with very warm summers and freezing winters. However, it is not uncommon during winter for warm air from the Gulf of Mexico to raise temperatures above 50 °F or 10 °C, which occurs on average six times each January and over eight in December and February. In contrast, when very cold air from Canada moves into West Virginia temperatures can go below 0 °F or −17.8 °C, which can be expected during 3.2 mornings each winter, but which occurred on twelve mornings during the extremely cold January 1977, whose average temperature of 16.0 °F or −8.9 °C was the coldest month on record by 4.0 °F or 2.2 °C. Despite the abundant precipitation throughout the year, the relative dryness of cold air means that most precipitation is rain even during the winter: the most snowfall in a month being 46.5 inches (1.18 m) is November 1950, and the most in a season 77.4 inches (1.97 m) between July 1950 and June 1951. The least snow in a season has been 12.0 inches (0.30 m) between July 1918 and June 1919, whilst the wettest calendar year has been 1956 with 58.12 inches (1,476.2 mm) and the driest – as with all of West Virginia – 1930 with 26.25 inches (666.8 mm). The hottest temperature has been 108 °F (42.2 °C) on August 8, 1918, and the coldest −21 °F (−29.4 °C) on January 21, 1994. ### Answer: January of 1977 was the coldest month in the history of Fairmont, West Virginia with an average of 16.0 degrees Farenheit.</s>
Given these paragraphs about Natural hydrogen, what is another name for it that distinguishes from other forms of hydrogen?	Natural hydrogen (known as white hydrogen), is naturally occurring molecular hydrogen on or in Earth (as opposed to hydrogen produced in the laboratory or in industry). The name white hydrogen distinguishes it from green hydrogen, which is produced from renewable energy sources, and from grey, brown or black hydrogen, which is obtained from fossil sources or from the electrolysis of water. Natural hydrogen may be renewable, non-polluting and allows for lower cost operation compared to industrial hydrogen. Natural hydrogen has been identified in many source rocks in areas beyond the sedimentary basins where oil companies typically operate. Origin of natural hydrogen There are several sources of natural hydrogen: - degassing of deep hydrogen from the Earth's crust and mantle; - reaction of water with ultrabasic rocks (serpentinisation); - contact of water with reducing agents in the Earth's mantle; - interaction of water with freshly exposed rock surfaces (weathering); - decomposition of hydroxyl ions in the structure of minerals; - Natural radiolysis of water; - decomposition of organic matter; - biological activity - Extraction - Natural hydrogen is extracted from wells, mixed with other gases such as nitrogen or helium. Several sources have been identified in France. Geologists Alain Prinzhofer and Eric Derville have demonstrated the existence of large reservoirs in a dozen countries, including Mali and the United States. However, their potential remains difficult to assess. Numerous emanations on the ocean floor have been identified but are difficult to exploit. The discovery of a significant emergence in Russia in 2008 suggests the possibility of extracting native hydrogen in geological environments. Geology Natural hydrogen is generated continuously from a variety of natural sources. There are many known hydrogen emergences on mid-ocean ridges. Another of the known reactions, serpentinisation, occurs under the sea floor (in the oceanic crust). Diagenetic origin (iron oxidation) in the sedimentary basins of cratons, notably in Russia. Other sources are being explored, such as mantle hydrogen, or hydrogen from radiolysis (natural electrolysis) or from bacterial activity. In France, the Alps and Pyrenees are suitable for exploitation. New Caledonia has hyperalkaline sources that show dihydrogen emissions. A large accumulation of natural hydrogen was discovered in Bourakebougou (Mali). Characteristics Dihydrogen is very soluble in fresh water, especially at depth (solubility increases with pressure). https://en.wikipedia.org/wiki/Natural_hydrogen	White hydrogen	closed_qa	### Instruction: Given these paragraphs about Natural hydrogen, what is another name for it that distinguishes from other forms of hydrogen? ### Context: Natural hydrogen (known as white hydrogen), is naturally occurring molecular hydrogen on or in Earth (as opposed to hydrogen produced in the laboratory or in industry). The name white hydrogen distinguishes it from green hydrogen, which is produced from renewable energy sources, and from grey, brown or black hydrogen, which is obtained from fossil sources or from the electrolysis of water. Natural hydrogen may be renewable, non-polluting and allows for lower cost operation compared to industrial hydrogen. Natural hydrogen has been identified in many source rocks in areas beyond the sedimentary basins where oil companies typically operate. Origin of natural hydrogen There are several sources of natural hydrogen: - degassing of deep hydrogen from the Earth's crust and mantle; - reaction of water with ultrabasic rocks (serpentinisation); - contact of water with reducing agents in the Earth's mantle; - interaction of water with freshly exposed rock surfaces (weathering); - decomposition of hydroxyl ions in the structure of minerals; - Natural radiolysis of water; - decomposition of organic matter; - biological activity - Extraction - Natural hydrogen is extracted from wells, mixed with other gases such as nitrogen or helium. Several sources have been identified in France. Geologists Alain Prinzhofer and Eric Derville have demonstrated the existence of large reservoirs in a dozen countries, including Mali and the United States. However, their potential remains difficult to assess. Numerous emanations on the ocean floor have been identified but are difficult to exploit. The discovery of a significant emergence in Russia in 2008 suggests the possibility of extracting native hydrogen in geological environments. Geology Natural hydrogen is generated continuously from a variety of natural sources. There are many known hydrogen emergences on mid-ocean ridges. Another of the known reactions, serpentinisation, occurs under the sea floor (in the oceanic crust). Diagenetic origin (iron oxidation) in the sedimentary basins of cratons, notably in Russia. Other sources are being explored, such as mantle hydrogen, or hydrogen from radiolysis (natural electrolysis) or from bacterial activity. In France, the Alps and Pyrenees are suitable for exploitation. New Caledonia has hyperalkaline sources that show dihydrogen emissions. A large accumulation of natural hydrogen was discovered in Bourakebougou (Mali). Characteristics Dihydrogen is very soluble in fresh water, especially at depth (solubility increases with pressure). https://en.wikipedia.org/wiki/Natural_hydrogen ### Answer: White hydrogen</s>
What is a graph in graph theory?	In discrete mathematics, and more specifically in graph theory, a graph is a structure amounting to a set of objects in which some pairs of the objects are in some sense "related". The objects correspond to mathematical abstractions called vertices (also called nodes or points) and each of the related pairs of vertices is called an edge (also called link or line). Typically, a graph is depicted in diagrammatic form as a set of dots or circles for the vertices, joined by lines or curves for the edges. Graphs are one of the objects of study in discrete mathematics.	In graph theory, a graph is a structure amounting to a set of objects in which some pairs of the objects are in some sense "related".	closed_qa	### Instruction: What is a graph in graph theory? ### Context: In discrete mathematics, and more specifically in graph theory, a graph is a structure amounting to a set of objects in which some pairs of the objects are in some sense "related". The objects correspond to mathematical abstractions called vertices (also called nodes or points) and each of the related pairs of vertices is called an edge (also called link or line). Typically, a graph is depicted in diagrammatic form as a set of dots or circles for the vertices, joined by lines or curves for the edges. Graphs are one of the objects of study in discrete mathematics. ### Answer: In graph theory, a graph is a structure amounting to a set of objects in which some pairs of the objects are in some sense "related".</s>
Which parks are popular in London?	A 2013 report by the City of London Corporation said that London is the "greenest city" in Europe with 14,164 hectares (35,000 acres) of public parks, woodlands and gardens. The largest parks in the central area of London are three of the eight Royal Parks, namely Hyde Park and its neighbour Kensington Gardens in the west, and Regent's Park to the north. Hyde Park in particular is popular for sports and sometimes hosts open-air concerts. Regent's Park contains London Zoo, the world's oldest scientific zoo, and is near Madame Tussauds Wax Museum. Primrose Hill, immediately to the north of Regent's Park, at 256 feet (78 m) is a popular spot from which to view the city skyline.	Popular parks in London includes Hyde Park, Regent's Park and Kensington Gardens.	closed_qa	### Instruction: Which parks are popular in London? ### Context: A 2013 report by the City of London Corporation said that London is the "greenest city" in Europe with 14,164 hectares (35,000 acres) of public parks, woodlands and gardens. The largest parks in the central area of London are three of the eight Royal Parks, namely Hyde Park and its neighbour Kensington Gardens in the west, and Regent's Park to the north. Hyde Park in particular is popular for sports and sometimes hosts open-air concerts. Regent's Park contains London Zoo, the world's oldest scientific zoo, and is near Madame Tussauds Wax Museum. Primrose Hill, immediately to the north of Regent's Park, at 256 feet (78 m) is a popular spot from which to view the city skyline. ### Answer: Popular parks in London includes Hyde Park, Regent's Park and Kensington Gardens.</s>
In the summary below of episode 158 of the series Black Clover, how did the Spade army lose?	Ralph continues trying to cross the border. The Spade army begins crossing the border in a mechanized citadel called Candelo powered by siphoning magic from Spade commoners. Asta, who has grown even stronger and can now fly astride his demon slayer sword, flies to Candelo where he is enraged to see Spade Knights siphoning prisoners to death. Asta confronts Candelo’s commander who reveals he is also the vessel for a devil. He poisons Asta with poison magic but Asta easily absorbs the poison into the demon destroyer sword and furiously cuts the citadel in half, defeating the captain in a single blow. The Bulls arrive and Mimosa helps the prisoners recover. Noelle reveals Luck and Leopold were sent to destroy the Spade base near to the prisoner’s village. Realising they get to return home safely the prisoners reveal the Spade kingdom is ruled by the Dark Triad, each possessed by a powerful devil, and their followers the Dark Disciples who draw demonic power from the Triad. The Triad, siblings Dante, Vanica and Zenon Zogratis, consider the loss of Candelo trivial when they are close to their goal for which they only need capture two Arcane Stage mages. Ralph finally crosses the border and collapses by Hage Church where Sister Lily finds him calling out for “Prince Yuno”.	Asta countered the Spade Kingdom's commandor's poison attack with the demon destroyer sword, then cut the attacking citadel in half, defeating the captain in a single blow.	closed_qa	### Instruction: In the summary below of episode 158 of the series Black Clover, how did the Spade army lose? ### Context: Ralph continues trying to cross the border. The Spade army begins crossing the border in a mechanized citadel called Candelo powered by siphoning magic from Spade commoners. Asta, who has grown even stronger and can now fly astride his demon slayer sword, flies to Candelo where he is enraged to see Spade Knights siphoning prisoners to death. Asta confronts Candelo’s commander who reveals he is also the vessel for a devil. He poisons Asta with poison magic but Asta easily absorbs the poison into the demon destroyer sword and furiously cuts the citadel in half, defeating the captain in a single blow. The Bulls arrive and Mimosa helps the prisoners recover. Noelle reveals Luck and Leopold were sent to destroy the Spade base near to the prisoner’s village. Realising they get to return home safely the prisoners reveal the Spade kingdom is ruled by the Dark Triad, each possessed by a powerful devil, and their followers the Dark Disciples who draw demonic power from the Triad. The Triad, siblings Dante, Vanica and Zenon Zogratis, consider the loss of Candelo trivial when they are close to their goal for which they only need capture two Arcane Stage mages. Ralph finally crosses the border and collapses by Hage Church where Sister Lily finds him calling out for “Prince Yuno”. ### Answer: Asta countered the Spade Kingdom's commandor's poison attack with the demon destroyer sword, then cut the attacking citadel in half, defeating the captain in a single blow.</s>
Given this paragraph about material, what is lithophane?	A lithophane is a thin plaque of translucent material, normally porcelain, which has been moulded to varying thickness, such that when lit from behind the different thicknesses show as different shades, forming an image. Only when lit from behind does the image display properly. They were invented in the 19th century and became very popular, typically for lampshades, nightlights, or to be hung on windows. They could also be given stands, to be placed in front of a light source. The longest side of a lithophane is typically between 6 and 10 inches.	A lithophane is a thin plaque of translucent material, normally porcelain, which has been moulded to varying thickness, such that when lit from behind the different thicknesses show as different shades, forming an image.	closed_qa	### Instruction: Given this paragraph about material, what is lithophane? ### Context: A lithophane is a thin plaque of translucent material, normally porcelain, which has been moulded to varying thickness, such that when lit from behind the different thicknesses show as different shades, forming an image. Only when lit from behind does the image display properly. They were invented in the 19th century and became very popular, typically for lampshades, nightlights, or to be hung on windows. They could also be given stands, to be placed in front of a light source. The longest side of a lithophane is typically between 6 and 10 inches. ### Answer: A lithophane is a thin plaque of translucent material, normally porcelain, which has been moulded to varying thickness, such that when lit from behind the different thicknesses show as different shades, forming an image.</s>
Have you heard of Malibamat'so River and where does it flow?	The Malibamat'so River is a river in northern Lesotho. Its origin is near to the South African border, where it drains the eastern slopes of the Maloti Range. It flows southwards past the village of Lejone, and eventually joins the Senqu River 5 kilometres (3.1 mi) northeast of Mohlanapeng. The Malibamat'so forms the northern arm of the Katse Dam reservoir, a part of the Lesotho Highlands Water Project. Katse is Africa's highest elevation dam at 1,993 metres (6,539 ft) above sea level. Here the river is joined by the Bokong/Bokung River. Downstream the Malibamat'so's left bank tributaries are the Matsoku and Semenanyane Rivers, before it forms a right bank tributary of the Senqu/Orange River.	Yes, the Malibamat'so River is a river in northern Lesotho. Its origin is near the South African border, where it drains the eastern slopes of the Maloti Range.	closed_qa	### Instruction: Have you heard of Malibamat'so River and where does it flow? ### Context: The Malibamat'so River is a river in northern Lesotho. Its origin is near to the South African border, where it drains the eastern slopes of the Maloti Range. It flows southwards past the village of Lejone, and eventually joins the Senqu River 5 kilometres (3.1 mi) northeast of Mohlanapeng. The Malibamat'so forms the northern arm of the Katse Dam reservoir, a part of the Lesotho Highlands Water Project. Katse is Africa's highest elevation dam at 1,993 metres (6,539 ft) above sea level. Here the river is joined by the Bokong/Bokung River. Downstream the Malibamat'so's left bank tributaries are the Matsoku and Semenanyane Rivers, before it forms a right bank tributary of the Senqu/Orange River. ### Answer: Yes, the Malibamat'so River is a river in northern Lesotho. Its origin is near the South African border, where it drains the eastern slopes of the Maloti Range.</s>
What is the objective of a batter in the sport of baseball?	Baseball is a bat-and-ball sport played between two teams of nine players each, taking turns batting and fielding. The game occurs over the course of several plays, with each play generally beginning when a player on the fielding team, called the pitcher, throws a ball that a player on the batting team, called the batter, tries to hit with a bat. The objective of the offensive team (batting team) is to hit the ball into the field of play, away from the other team's players, allowing its players to run the bases, having them advance counter-clockwise around four bases to score what are called "runs". The objective of the defensive team (referred to as the fielding team) is to prevent batters from becoming runners, and to prevent runners' advance around the bases. A run is scored when a runner legally advances around the bases in order and touches home plate (the place where the player started as a batter). The principal objective of the batting team is to have a player reach first base safely; this generally occurs either when the batter hits the ball and reaches first base before an opponent retrieves the ball and touches the base, or when the pitcher persists in throwing the ball out of the batter's reach. Players on the batting team who reach first base without being called "out" can attempt to advance to subsequent bases as a runner, either immediately or during teammates' turns batting. The fielding team tries to prevent runs by getting batters or runners "out", which forces them out of the field of play. The pitcher can get the batter out by throwing three pitches which result in strikes, while fielders can get the batter out by catching a batted ball before it touches the ground, and can get a runner out by tagging them with the ball while the runner is not touching a base. The opposing teams switch back and forth between batting and fielding; the batting team's turn to bat is over once the fielding team records three outs. One turn batting for each team constitutes an inning. A game is usually composed of nine innings, and the team with the greater number of runs at the end of the game wins. Most games end after the ninth inning, but if scores are tied at that point, extra innings are usually played. Baseball has no game clock, though some competitions feature pace-of-play regulations such as the pitch clock to shorten game time. Baseball evolved from older bat-and-ball games already being played in England by the mid-18th century. This game was brought by immigrants to North America, where the modern version developed. Baseball's American origins, as well as its reputation as a source of escapism during troubled points in American history such as the American Civil War and the Great Depression, have led the sport to receive the moniker of "America's Pastime"; since the late 19th century, it has been unofficially recognized as the national sport of the United States, though in modern times is considered less popular than other sports, such as American football. In addition to North America, baseball is considered the most popular sport in parts of Central and South America, the Caribbean, and East Asia, particularly in Japan, South Korea, and Taiwan.	The principal objective of the batting team in the sport of baseball is to have a player reach first base safely; this generally occurs either when the batter hits the ball and reaches first base before an opponent retrieves the ball and touches the base, or when the pitcher persists in throwing the ball out of the batter's reach. Players on the batting team who reach first base without being called "out" can attempt to advance to subsequent bases as a runner, either immediately or during teammates' turns batting. The fielding team tries to prevent runs by getting batters or runners "out", which forces them out of the field of play. The pitcher can get the batter out by throwing three pitches which result in strikes, while fielders can get the batter out by catching a batted ball before it touches the ground, and can get a runner out by tagging them with the ball while the runner is not touching a base.	closed_qa	### Instruction: What is the objective of a batter in the sport of baseball? ### Context: Baseball is a bat-and-ball sport played between two teams of nine players each, taking turns batting and fielding. The game occurs over the course of several plays, with each play generally beginning when a player on the fielding team, called the pitcher, throws a ball that a player on the batting team, called the batter, tries to hit with a bat. The objective of the offensive team (batting team) is to hit the ball into the field of play, away from the other team's players, allowing its players to run the bases, having them advance counter-clockwise around four bases to score what are called "runs". The objective of the defensive team (referred to as the fielding team) is to prevent batters from becoming runners, and to prevent runners' advance around the bases. A run is scored when a runner legally advances around the bases in order and touches home plate (the place where the player started as a batter). The principal objective of the batting team is to have a player reach first base safely; this generally occurs either when the batter hits the ball and reaches first base before an opponent retrieves the ball and touches the base, or when the pitcher persists in throwing the ball out of the batter's reach. Players on the batting team who reach first base without being called "out" can attempt to advance to subsequent bases as a runner, either immediately or during teammates' turns batting. The fielding team tries to prevent runs by getting batters or runners "out", which forces them out of the field of play. The pitcher can get the batter out by throwing three pitches which result in strikes, while fielders can get the batter out by catching a batted ball before it touches the ground, and can get a runner out by tagging them with the ball while the runner is not touching a base. The opposing teams switch back and forth between batting and fielding; the batting team's turn to bat is over once the fielding team records three outs. One turn batting for each team constitutes an inning. A game is usually composed of nine innings, and the team with the greater number of runs at the end of the game wins. Most games end after the ninth inning, but if scores are tied at that point, extra innings are usually played. Baseball has no game clock, though some competitions feature pace-of-play regulations such as the pitch clock to shorten game time. Baseball evolved from older bat-and-ball games already being played in England by the mid-18th century. This game was brought by immigrants to North America, where the modern version developed. Baseball's American origins, as well as its reputation as a source of escapism during troubled points in American history such as the American Civil War and the Great Depression, have led the sport to receive the moniker of "America's Pastime"; since the late 19th century, it has been unofficially recognized as the national sport of the United States, though in modern times is considered less popular than other sports, such as American football. In addition to North America, baseball is considered the most popular sport in parts of Central and South America, the Caribbean, and East Asia, particularly in Japan, South Korea, and Taiwan. ### Answer: The principal objective of the batting team in the sport of baseball is to have a player reach first base safely; this generally occurs either when the batter hits the ball and reaches first base before an opponent retrieves the ball and touches the base, or when the pitcher persists in throwing the ball out of the batter's reach. Players on the batting team who reach first base without being called "out" can attempt to advance to subsequent bases as a runner, either immediately or during teammates' turns batting. The fielding team tries to prevent runs by getting batters or runners "out", which forces them out of the field of play. The pitcher can get the batter out by throwing three pitches which result in strikes, while fielders can get the batter out by catching a batted ball before it touches the ground, and can get a runner out by tagging them with the ball while the runner is not touching a base.</s>
Given this reference text about the Philadelphia Phillies, how many stadiums have they had and where do they play currently?	The franchise was founded in Philadelphia in 1883, replacing the team from Worcester, Massachusetts, in the National League. The team has played at several stadiums in the city, beginning with Recreation Park (1883–1886) and continuing at Baker Bowl (1887–1938); Shibe Park (which was renamed Connie Mack Stadium in 1953 in honor of the longtime Philadelphia Athletics manager Connie Mack) (1938–1970); Veterans Stadium (1971–2003), and now Citizens Bank Park (2004-present).	The Phillies have played in five different stadium throughout their history in Philadelphia. They currently play at Citizens Bank Park.	closed_qa	### Instruction: Given this reference text about the Philadelphia Phillies, how many stadiums have they had and where do they play currently? ### Context: The franchise was founded in Philadelphia in 1883, replacing the team from Worcester, Massachusetts, in the National League. The team has played at several stadiums in the city, beginning with Recreation Park (1883–1886) and continuing at Baker Bowl (1887–1938); Shibe Park (which was renamed Connie Mack Stadium in 1953 in honor of the longtime Philadelphia Athletics manager Connie Mack) (1938–1970); Veterans Stadium (1971–2003), and now Citizens Bank Park (2004-present). ### Answer: The Phillies have played in five different stadium throughout their history in Philadelphia. They currently play at Citizens Bank Park.</s>
Given a reference text about Being There, tell me when the book was published and when a film about the book was created.	Being There is a satirical novel by the Polish-born writer Jerzy Kosinski, published April 21, 1971. Set in America, the story concerns Chance, a simple gardener who unwittingly becomes a much sought-after political pundit and commentator on the vagaries of the modern world. It has been suggested that Kosinski modeled the character of Chance after a former greenhouse manager named Jerry Jarvis who became the national leader of the transcendental meditation movement during the late 1960s and early 1970s, whom Kosinski had met at the local TM Center in Cambridge, Massachusetts, and who embodied the calm and simple manner of Chauncy Gardiner. The Cambridge TM Center was for years located at the corner of Chauncy and Garden Streets. A film based on the book was made in 1979; Kosinski co-wrote the film's screenplay with Robert C. Jones.	Being There was published on April 21, 1971 and a film about the book was made in 1979.	closed_qa	### Instruction: Given a reference text about Being There, tell me when the book was published and when a film about the book was created. ### Context: Being There is a satirical novel by the Polish-born writer Jerzy Kosinski, published April 21, 1971. Set in America, the story concerns Chance, a simple gardener who unwittingly becomes a much sought-after political pundit and commentator on the vagaries of the modern world. It has been suggested that Kosinski modeled the character of Chance after a former greenhouse manager named Jerry Jarvis who became the national leader of the transcendental meditation movement during the late 1960s and early 1970s, whom Kosinski had met at the local TM Center in Cambridge, Massachusetts, and who embodied the calm and simple manner of Chauncy Gardiner. The Cambridge TM Center was for years located at the corner of Chauncy and Garden Streets. A film based on the book was made in 1979; Kosinski co-wrote the film's screenplay with Robert C. Jones. ### Answer: Being There was published on April 21, 1971 and a film about the book was made in 1979.</s>
Given this paragraph about Lady Gaga, which album did "Bloody Mary" appear on?	"Bloody Mary" is a song by American singer Lady Gaga recorded for her second studio album Born This Way (2011). Gaga, Fernando Garibay, and Paul "DJ White Shadow" Blair wrote and produced it; Clinton Sparks also received producer credit. "Bloody Mary" is an electropop song with elements of synth-pop and trance, and features Gregorian chants. Although the song's title is an epithet mostly associated with the English queen Mary Tudor, Gaga assumes the role of biblical figure Mary Magdalene in its lyrics, whom she considered a "feminine force" she had worshiped since her childhood in a Catholic girls school. It is one of several tracks on the album with religious themes.	Born this Way (2011)	closed_qa	### Instruction: Given this paragraph about Lady Gaga, which album did "Bloody Mary" appear on? ### Context: "Bloody Mary" is a song by American singer Lady Gaga recorded for her second studio album Born This Way (2011). Gaga, Fernando Garibay, and Paul "DJ White Shadow" Blair wrote and produced it; Clinton Sparks also received producer credit. "Bloody Mary" is an electropop song with elements of synth-pop and trance, and features Gregorian chants. Although the song's title is an epithet mostly associated with the English queen Mary Tudor, Gaga assumes the role of biblical figure Mary Magdalene in its lyrics, whom she considered a "feminine force" she had worshiped since her childhood in a Catholic girls school. It is one of several tracks on the album with religious themes. ### Answer: Born this Way (2011)</s>
Where can I find Leptodactylus tapiti?	Leptodactylus tapiti is a species of frog in the family Leptodactylidae. It is endemic to Brazil. Its natural habitats are moist savanna, subtropical or tropical high-altitude grassland, and rivers.	Leptodactylus tapiti is a species of frog that are native to Brazil. Its natural habitats are moist savanna, subtropical or tropical high-altitude grassland, and rivers.	closed_qa	### Instruction: Where can I find Leptodactylus tapiti? ### Context: Leptodactylus tapiti is a species of frog in the family Leptodactylidae. It is endemic to Brazil. Its natural habitats are moist savanna, subtropical or tropical high-altitude grassland, and rivers. ### Answer: Leptodactylus tapiti is a species of frog that are native to Brazil. Its natural habitats are moist savanna, subtropical or tropical high-altitude grassland, and rivers.</s>
What was Barthelemy Hus-Desforges famous for	Barthélemy Hus, called Hus-Desforges (18 July 1699 in Bordeaux – 1 September 1786 in Lyon, aged 63) was an 18th-century French comedian and troupe leader. The son of maître à danser Jérôme Hus and Marguerite Pageot, called Desforges, he was the youngest member of the Hus family and with his brother François, directed a touring company known as the "Hus brothers troupe." Around 1722, he married Marie Anne Daguerre Ascorette, actress born in Namur (1709-1736). The couple had at least seven children who would be part of the troupe. On 27 January 1750, he married in Brussels his second wife, Louise Vivier de Courtenay, descendant of the famous Courtenay family. Barthélemy Hus-Desforges was the grandfather of musician Pierre-Louis Hus-Desforges (1773-1838).	Barthelemy Hus, called Hus-Desforges (18 July 1699 in Bordeaux – 1 September 1786 in Lyon, aged 63) was an 18th-century French comedian and troupe leader. The son of maitre a danser Jerome Hus and Marguerite Pageot, called Desforges, he was the youngest member of the Hus family and with his brother Francois, directed a touring company known as the "Hus brothers troupe." Around 1722, he married Marie Anne Daguerre Ascorette, actress born in Namur (1709-1736). The couple had at least seven children who would be part of the troupe. On 27 January 1750, he married in Brussels his second wife, Louise Vivier de Courtenay, descendant of the famous Courtenay family. Barthelemy Hus-Desforges was the grandfather of musician Pierre-Louis Hus-Desforges (1773-1838).	closed_qa	### Instruction: What was Barthelemy Hus-Desforges famous for ### Context: Barthélemy Hus, called Hus-Desforges (18 July 1699 in Bordeaux – 1 September 1786 in Lyon, aged 63) was an 18th-century French comedian and troupe leader. The son of maître à danser Jérôme Hus and Marguerite Pageot, called Desforges, he was the youngest member of the Hus family and with his brother François, directed a touring company known as the "Hus brothers troupe." Around 1722, he married Marie Anne Daguerre Ascorette, actress born in Namur (1709-1736). The couple had at least seven children who would be part of the troupe. On 27 January 1750, he married in Brussels his second wife, Louise Vivier de Courtenay, descendant of the famous Courtenay family. Barthélemy Hus-Desforges was the grandfather of musician Pierre-Louis Hus-Desforges (1773-1838). ### Answer: Barthelemy Hus, called Hus-Desforges (18 July 1699 in Bordeaux – 1 September 1786 in Lyon, aged 63) was an 18th-century French comedian and troupe leader. The son of maitre a danser Jerome Hus and Marguerite Pageot, called Desforges, he was the youngest member of the Hus family and with his brother Francois, directed a touring company known as the "Hus brothers troupe." Around 1722, he married Marie Anne Daguerre Ascorette, actress born in Namur (1709-1736). The couple had at least seven children who would be part of the troupe. On 27 January 1750, he married in Brussels his second wife, Louise Vivier de Courtenay, descendant of the famous Courtenay family. Barthelemy Hus-Desforges was the grandfather of musician Pierre-Louis Hus-Desforges (1773-1838).</s>
What was the Underground Railroad?	The Underground Railroad was a network of clandestine routes and safe houses established in the United States during the early- to the mid-19th century. It was used by enslaved African Americans primarily to escape into free states and Canada. The network was assisted by abolitionists and others sympathetic to the cause of the escapees. The enslaved persons who risked escape and those who aided them are also collectively referred to as the "Underground Railroad". Various other routes led to Mexico, where slavery had been abolished, and to islands in the Caribbean that were not part of the slave trade. An earlier escape route running south toward Florida, then a Spanish possession (except 1763–1783), existed from the late 17th century until approximately 1790. However, the network now generally known as the Underground Railroad began in the late 18th century. It ran north and grew steadily until the Emancipation Proclamation was signed by President Abraham Lincoln. One estimate suggests that by 1850, approximately 100,000 enslaved people had escaped to freedom via the network	The Underground Railroad was a secret network of routes and safe houses in the United States established in the early 19th century that led to free states, Canada, Mexico and other overseas areas. Black slaves used the Underground Railroad to escape from slavery. It is estimated that by 1850, about 100,000 slaves had escaped to freedom by the "Railroad".	closed_qa	### Instruction: What was the Underground Railroad? ### Context: The Underground Railroad was a network of clandestine routes and safe houses established in the United States during the early- to the mid-19th century. It was used by enslaved African Americans primarily to escape into free states and Canada. The network was assisted by abolitionists and others sympathetic to the cause of the escapees. The enslaved persons who risked escape and those who aided them are also collectively referred to as the "Underground Railroad". Various other routes led to Mexico, where slavery had been abolished, and to islands in the Caribbean that were not part of the slave trade. An earlier escape route running south toward Florida, then a Spanish possession (except 1763–1783), existed from the late 17th century until approximately 1790. However, the network now generally known as the Underground Railroad began in the late 18th century. It ran north and grew steadily until the Emancipation Proclamation was signed by President Abraham Lincoln. One estimate suggests that by 1850, approximately 100,000 enslaved people had escaped to freedom via the network ### Answer: The Underground Railroad was a secret network of routes and safe houses in the United States established in the early 19th century that led to free states, Canada, Mexico and other overseas areas. Black slaves used the Underground Railroad to escape from slavery. It is estimated that by 1850, about 100,000 slaves had escaped to freedom by the "Railroad".</s>
Given this passage about the human heart, tell me about the major structural features of the human heart as well as the primary purpose of the organ.	The heart is a muscular organ in most animals. This organ pumps blood through the blood vessels of the circulatory system. The pumped blood carries oxygen and nutrients to the body, while carrying metabolic waste such as carbon dioxide to the lungs. In humans, the heart is approximately the size of a closed fist and is located between the lungs, in the middle compartment of the chest, called mediastinum . In humans, other mammals, and birds, the heart is divided into four chambers: upper left and right atria and lower left and right ventricles. Commonly the right atrium and ventricle are referred together as the right heart and their left counterparts as the left heart. Fish, in contrast, have two chambers, an atrium and a ventricle, while most reptiles have three chambers. In a healthy heart blood flows one way through the heart due to heart valves, which prevent backflow. The heart is enclosed in a protective sac, the pericardium, which also contains a small amount of fluid. The wall of the heart is made up of three layers: epicardium, myocardium, and endocardium.	The major structural features of the human heart are its four chambers for pumping blood. The heart is commonly viewed as having a left side and a right side, with each side comprising two chambers -- an atrium and a ventricle. The four total chambers make up the organ's primary structural features. Together, they are responsible for maintaining blood flow throughout the body via the circulatory system. The heart is also responsible for moving waste products through the bloodstream to the organs that process them.	closed_qa	### Instruction: Given this passage about the human heart, tell me about the major structural features of the human heart as well as the primary purpose of the organ. ### Context: The heart is a muscular organ in most animals. This organ pumps blood through the blood vessels of the circulatory system. The pumped blood carries oxygen and nutrients to the body, while carrying metabolic waste such as carbon dioxide to the lungs. In humans, the heart is approximately the size of a closed fist and is located between the lungs, in the middle compartment of the chest, called mediastinum . In humans, other mammals, and birds, the heart is divided into four chambers: upper left and right atria and lower left and right ventricles. Commonly the right atrium and ventricle are referred together as the right heart and their left counterparts as the left heart. Fish, in contrast, have two chambers, an atrium and a ventricle, while most reptiles have three chambers. In a healthy heart blood flows one way through the heart due to heart valves, which prevent backflow. The heart is enclosed in a protective sac, the pericardium, which also contains a small amount of fluid. The wall of the heart is made up of three layers: epicardium, myocardium, and endocardium. ### Answer: The major structural features of the human heart are its four chambers for pumping blood. The heart is commonly viewed as having a left side and a right side, with each side comprising two chambers -- an atrium and a ventricle. The four total chambers make up the organ's primary structural features. Together, they are responsible for maintaining blood flow throughout the body via the circulatory system. The heart is also responsible for moving waste products through the bloodstream to the organs that process them.</s>
By what percentage of vote margin did Ralph Northam win over Aneesh Chopra in the 2013 election for Governor of Virginia?	Northam ran for Lieutenant Governor of Virginia in the 2013 election. Northam competed against U.S. Chief Technology Officer Aneesh Chopra for the Democratic nomination. On June 11, 2013, Northam won the Democratic primary over Chopra with 54% of the vote to Chopra's 46%. On November 5, 2013, Northam was elected as Virginia's 40th Lieutenant Governor over Republican E. W. Jackson, receiving 55% of the vote to Jackson's 45%. Northam was the first Democrat since Tim Kaine in 2001 to be elected Lieutenant Governor of Virginia.	8 percent	closed_qa	### Instruction: By what percentage of vote margin did Ralph Northam win over Aneesh Chopra in the 2013 election for Governor of Virginia? ### Context: Northam ran for Lieutenant Governor of Virginia in the 2013 election. Northam competed against U.S. Chief Technology Officer Aneesh Chopra for the Democratic nomination. On June 11, 2013, Northam won the Democratic primary over Chopra with 54% of the vote to Chopra's 46%. On November 5, 2013, Northam was elected as Virginia's 40th Lieutenant Governor over Republican E. W. Jackson, receiving 55% of the vote to Jackson's 45%. Northam was the first Democrat since Tim Kaine in 2001 to be elected Lieutenant Governor of Virginia. ### Answer: 8 percent</s>
What was the profession of Araber Rahaman?	Araber Rahaman (died 28 April 2013) was an Indian politician. He was the Tripura MLA for Boxanagar from 1978–1988.	He was a politician.	closed_qa	### Instruction: What was the profession of Araber Rahaman? ### Context: Araber Rahaman (died 28 April 2013) was an Indian politician. He was the Tripura MLA for Boxanagar from 1978–1988. ### Answer: He was a politician.</s>
Given a reference text about Jeremiah Mutwalante Twa-Twa, when and where was he born?	Jeremiah Mutwalante Twa-Twa (born 29 January 1951) is a Ugandan physician, public health specialist, and politician. His last name is sometimes spelled "Twatwa". He is the elected Member of Parliament representing Iki-Iki County, Budaka District. He has served in that capacity since May 2011. Before that, he served as the director of the Division of Child Health at the Uganda Ministry of Health from 2005 until 2010. Background and education He was born in Budaka District on 29 January 1951. Twa-Twa attended Sekulo Primary School in Budaka District from 1959 until 1964. He then studied at Mbale College in Mbale District from 1965 until 1966. He undertook his O-Level studies (S1-S4) at Jinja College in Jinja District from 1967 until 1970. In 1971, he entered Namilyango College in Mukono District to pursue his A-Level (S5-S6) education, graduating in 1972. He graduated from Makerere University Medical School in 1978 with a Bachelor of Medicine and Bachelor of Surgery degree. In 1981, he obtained a Diploma in Public Health from the Makerere University School of Public Health. In 1995, he received a Master of Arts degree in demography from the same university. He also holds a Certificate in Epidemiology, awarded in 1983 by the University of Nairobi.[	Jeremiah Mutwalante Twa-Twa was born in the Budaka District of Uganda on January 29, 1951.	closed_qa	### Instruction: Given a reference text about Jeremiah Mutwalante Twa-Twa, when and where was he born? ### Context: Jeremiah Mutwalante Twa-Twa (born 29 January 1951) is a Ugandan physician, public health specialist, and politician. His last name is sometimes spelled "Twatwa". He is the elected Member of Parliament representing Iki-Iki County, Budaka District. He has served in that capacity since May 2011. Before that, he served as the director of the Division of Child Health at the Uganda Ministry of Health from 2005 until 2010. Background and education He was born in Budaka District on 29 January 1951. Twa-Twa attended Sekulo Primary School in Budaka District from 1959 until 1964. He then studied at Mbale College in Mbale District from 1965 until 1966. He undertook his O-Level studies (S1-S4) at Jinja College in Jinja District from 1967 until 1970. In 1971, he entered Namilyango College in Mukono District to pursue his A-Level (S5-S6) education, graduating in 1972. He graduated from Makerere University Medical School in 1978 with a Bachelor of Medicine and Bachelor of Surgery degree. In 1981, he obtained a Diploma in Public Health from the Makerere University School of Public Health. In 1995, he received a Master of Arts degree in demography from the same university. He also holds a Certificate in Epidemiology, awarded in 1983 by the University of Nairobi.[ ### Answer: Jeremiah Mutwalante Twa-Twa was born in the Budaka District of Uganda on January 29, 1951.</s>
Given this paragraph, who was Ayrton Senna's teammate at McLaren-Honda?	Ayrton Senna began his motorsport career in karting, moved up to open-wheel racing in 1981 and won the 1983 British Formula Three Championship. He made his Formula One debut with Toleman-Hart in 1984, before moving to Lotus-Renault the following year and winning six Grands Prix over the next three seasons. In 1988, he joined Frenchman Alain Prost at McLaren-Honda. Between them, they won all but one of the 16 Grands Prix that year, and Senna claimed his first World Championship. Prost claimed the championship in 1989, and Senna his second and third championships in 1990 and 1991. In 1992, the Williams-Renault combination began to dominate Formula One. Senna nonetheless managed to finish the 1993 season as runner-up, winning five races and negotiating a move to Williams in 1994.	While at McLaren-Honda, Alain Prost was Ayrton Senna's teammate.	closed_qa	### Instruction: Given this paragraph, who was Ayrton Senna's teammate at McLaren-Honda? ### Context: Ayrton Senna began his motorsport career in karting, moved up to open-wheel racing in 1981 and won the 1983 British Formula Three Championship. He made his Formula One debut with Toleman-Hart in 1984, before moving to Lotus-Renault the following year and winning six Grands Prix over the next three seasons. In 1988, he joined Frenchman Alain Prost at McLaren-Honda. Between them, they won all but one of the 16 Grands Prix that year, and Senna claimed his first World Championship. Prost claimed the championship in 1989, and Senna his second and third championships in 1990 and 1991. In 1992, the Williams-Renault combination began to dominate Formula One. Senna nonetheless managed to finish the 1993 season as runner-up, winning five races and negotiating a move to Williams in 1994. ### Answer: While at McLaren-Honda, Alain Prost was Ayrton Senna's teammate.</s>
How many people visit the zoo in the US each year?	A zoo (short for zoological garden; also called an animal park or menagerie) is a facility in which animals are kept within enclosures for public exhibition and often bred for conservation purposes. The term zoological garden refers to zoology, the study of animals. The term is derived from the Greek ζώον, zoon, 'animal', and the suffix -λογία, -logia, 'study of'. The abbreviation zoo was first used of the London Zoological Gardens, which was opened for scientific study in 1828 and to the public in 1847. In the United States alone, zoos are visited by over 181 million people annually.	181 million people in the US visit the zoo annually each year.	closed_qa	### Instruction: How many people visit the zoo in the US each year? ### Context: A zoo (short for zoological garden; also called an animal park or menagerie) is a facility in which animals are kept within enclosures for public exhibition and often bred for conservation purposes. The term zoological garden refers to zoology, the study of animals. The term is derived from the Greek ζώον, zoon, 'animal', and the suffix -λογία, -logia, 'study of'. The abbreviation zoo was first used of the London Zoological Gardens, which was opened for scientific study in 1828 and to the public in 1847. In the United States alone, zoos are visited by over 181 million people annually. ### Answer: 181 million people in the US visit the zoo annually each year.</s>
How many iron atoms are in a single molecule of the main component substance of ironsand?	Ironsand, also known as iron-sand or iron sand, is a type of sand with heavy concentrations of iron. It is typically dark grey or blackish in colour. It is composed mainly of magnetite, Fe3O4, and also contains small amounts of titanium, silica, manganese, calcium and vanadium. Ironsand has a tendency to heat up in direct sunlight, causing temperatures high enough to cause minor burns. As such it forms a hazard in New Zealand at popular west-coast surf beaches such as Piha.	The main component of ironsand is magnetite, which has chemical formula Fe3O4. Because Fe is the chemical symbol for iron and it is followed by a 3 in this formula, there are 3 iron atoms per magnetite molecule.	closed_qa	### Instruction: How many iron atoms are in a single molecule of the main component substance of ironsand? ### Context: Ironsand, also known as iron-sand or iron sand, is a type of sand with heavy concentrations of iron. It is typically dark grey or blackish in colour. It is composed mainly of magnetite, Fe3O4, and also contains small amounts of titanium, silica, manganese, calcium and vanadium. Ironsand has a tendency to heat up in direct sunlight, causing temperatures high enough to cause minor burns. As such it forms a hazard in New Zealand at popular west-coast surf beaches such as Piha. ### Answer: The main component of ironsand is magnetite, which has chemical formula Fe3O4. Because Fe is the chemical symbol for iron and it is followed by a 3 in this formula, there are 3 iron atoms per magnetite molecule.</s>
What is SVM?	In machine learning, support vector machines (SVMs, also support vector networks) are supervised learning models with associated learning algorithms that analyze data for classification and regression analysis. Developed at AT&T Bell Laboratories by Vladimir Vapnik with colleagues (Boser et al., 1992, Guyon et al., 1993, Cortes and Vapnik, 1995, Vapnik et al., 1997[citation needed]) SVMs are one of the most robust prediction methods, being based on statistical learning frameworks or VC theory proposed by Vapnik (1982, 1995) and Chervonenkis (1974). Given a set of training examples, each marked as belonging to one of two categories, an SVM training algorithm builds a model that assigns new examples to one category or the other, making it a non-probabilistic binary linear classifier (although methods such as Platt scaling exist to use SVM in a probabilistic classification setting). SVM maps training examples to points in space so as to maximise the width of the gap between the two categories. New examples are then mapped into that same space and predicted to belong to a category based on which side of the gap they fall. In addition to performing linear classification, SVMs can efficiently perform a non-linear classification using what is called the kernel trick, implicitly mapping their inputs into high-dimensional feature spaces. The support vector clustering algorithm, created by Hava Siegelmann and Vladimir Vapnik, applies the statistics of support vectors, developed in the support vector machines algorithm, to categorize unlabeled data.[citation needed] These data sets require unsupervised learning approaches, which attempt to find natural clustering of the data to groups and, then, to map new data according to these clusters.	SVM stands for ""support vector machine". It is a machine learning model for supervised learning tasks. It was popular in the 1990s and early 2000s, before deep learning take off. The classic use case is binary classification, but its extension can also do multi-label classification as we as regression. Kernel methods greatly enhanced SVM's capability to perform non-linear machine learning tasks.	closed_qa	### Instruction: What is SVM? ### Context: In machine learning, support vector machines (SVMs, also support vector networks) are supervised learning models with associated learning algorithms that analyze data for classification and regression analysis. Developed at AT&T Bell Laboratories by Vladimir Vapnik with colleagues (Boser et al., 1992, Guyon et al., 1993, Cortes and Vapnik, 1995, Vapnik et al., 1997[citation needed]) SVMs are one of the most robust prediction methods, being based on statistical learning frameworks or VC theory proposed by Vapnik (1982, 1995) and Chervonenkis (1974). Given a set of training examples, each marked as belonging to one of two categories, an SVM training algorithm builds a model that assigns new examples to one category or the other, making it a non-probabilistic binary linear classifier (although methods such as Platt scaling exist to use SVM in a probabilistic classification setting). SVM maps training examples to points in space so as to maximise the width of the gap between the two categories. New examples are then mapped into that same space and predicted to belong to a category based on which side of the gap they fall. In addition to performing linear classification, SVMs can efficiently perform a non-linear classification using what is called the kernel trick, implicitly mapping their inputs into high-dimensional feature spaces. The support vector clustering algorithm, created by Hava Siegelmann and Vladimir Vapnik, applies the statistics of support vectors, developed in the support vector machines algorithm, to categorize unlabeled data.[citation needed] These data sets require unsupervised learning approaches, which attempt to find natural clustering of the data to groups and, then, to map new data according to these clusters. ### Answer: SVM stands for ""support vector machine". It is a machine learning model for supervised learning tasks. It was popular in the 1990s and early 2000s, before deep learning take off. The classic use case is binary classification, but its extension can also do multi-label classification as we as regression. Kernel methods greatly enhanced SVM's capability to perform non-linear machine learning tasks.</s>