tuple_ie · Datasets at Hugging Face

sentence stringlengths 0 8.07k	tuples sequence
A common example of a chemical substance is pure water.	{ "score": [ 0.949999988079071 ], "tuple_text": [ "(A common example of a chemical substance; is; pure water)" ], "context": [ "" ], "arg1": [ "A common example of a chemical substance" ], "rel": [ "is" ], "arg2s": [ [ "pure water" ] ] }
Chemical energy in (for example) wood, transforms into heat when you burn the wood, and whe…n you get enough heat, you will then also get light.	{ "score": [ 0.6800000071525574, 0.3499999940395355, 0.5899999737739563, 0.8500000238418579 ], "tuple_text": [ "(you; burn; the wood)", "(you; whe; )", "(you; will also get; light; T:then)", "Context(you will also get,List([118, 140))):(Chemical energy in (for example) wood; transforms; into heat; T:when you burn the wood, and whe)" ], "context": [ "", "", "", "you will also get,List([118, 140))" ], "arg1": [ "you", "you", "you", "Chemical energy in (for example) wood" ], "rel": [ "burn", "whe", "will also get", "transforms" ], "arg2s": [ [ "the wood" ], [ "" ], [ "light", "T:then" ], [ "into heat", "T:when you burn the wood, and whe" ] ] }
g/mL weighed in air of density	{ "score": [ 0.6800000071525574 ], "tuple_text": [ "(g/mL; weighed; )" ], "context": [ "" ], "arg1": [ "g/mL" ], "rel": [ "weighed" ], "arg2s": [ [ "" ] ] }
Most of the genetic variation in sexually reproducing species is produced during reproduction.	{ "score": [ 0.949999988079071 ], "tuple_text": [ "(Most of the genetic variation in sexually reproducing species; is produced; T:during reproduction)" ], "context": [ "" ], "arg1": [ "Most of the genetic variation in sexually reproducing species" ], "rel": [ "is produced" ], "arg2s": [ [ "T:during reproduction" ] ] }
Reproduction can be divided into two broad types, asexual reproduction and sexual reproduction, that differ in the genetic mechanisms used and the resulting amount of genetic variation between parents and offspring.	{ "score": [ 0.8899999856948853, 0.8999999761581421, 0.75 ], "tuple_text": [ "(Reproduction; can be divided; into two broad types)", "(two broad types; differ; L:in the genetic mechanisms)", "(the genetic mechanisms; used; )" ], "context": [ "", "", "" ], "arg1": [ "Reproduction", "two broad types", "the genetic mechanisms" ], "rel": [ "can be divided", "differ", "used" ], "arg2s": [ [ "into two broad types" ], [ "L:in the genetic mechanisms" ], [ "" ] ] }
The heat was transferred by moving molecules within the spoons.	{ "score": [ 0.8999999761581421, 0.8899999856948853 ], "tuple_text": [ "(The heat; was transferred; by moving molecules within the spoons)", "(The heat; by moving; molecules; within the spoons)" ], "context": [ "", "" ], "arg1": [ "The heat", "The heat" ], "rel": [ "was transferred", "by moving" ], "arg2s": [ [ "by moving molecules within the spoons" ], [ "molecules", "within the spoons" ] ] }
Carbohydrates are nutrients composed of carbon, oxygen, and hydrogen. They are a major source of energy. In addition to providing energy, carbohydrates provide the raw materials to make parts of cells. Carbohydrates. Simple carbohydrates are sugars. One sugar, glucose, is the major source of energy for your body's cells. Complex carbohydrates are made up of many sugar molecules linked together in a chain.	{ "score": [ 0.8899999856948853, 0.7799999713897705, 0.75, 0.8799999952316284, 0.8799999952316284, 0.8700000047683716, 0.550000011920929, 0.8700000047683716 ], "tuple_text": [ "(nutrients; composed; of carbon, oxygen, and hydrogen)", "(many sugar molecules; linked; together)", "(Complex carbohydrates; are made up; )", "Context(Complex carbohydrates are made up,List([325, 358))):(One sugar; is; the major source of energy for your body's cells)", "Context(One sugar is Complex carbohydrates are made up,List([252, 358))):(Simple carbohydrates; are; sugars)", "(carbohydrates; provide; the raw materials)", "Context(carbohydrates provide,List([140, 161))):(They; are; a major source of energy)", "Context(carbohydrates provide,List([140, 161))):(carbohydrates; provide the raw materials to make; parts of cells)" ], "context": [ "", "", "", "Complex carbohydrates are made up,List([325, 358))", "One sugar is Complex carbohydrates are made up,List([252, 358))", "", "carbohydrates provide,List([140, 161))", "carbohydrates provide,List([140, 161))" ], "arg1": [ "nutrients", "many sugar molecules", "Complex carbohydrates", "One sugar", "Simple carbohydrates", "carbohydrates", "They", "carbohydrates" ], "rel": [ "composed", "linked", "are made up", "is", "are", "provide", "are", "provide the raw materials to make" ], "arg2s": [ [ "of carbon, oxygen, and hydrogen" ], [ "together" ], [ "" ], [ "the major source of energy for your body's cells" ], [ "sugars" ], [ "the raw materials" ], [ "a major source of energy" ], [ "parts of cells" ] ] }
• Cell wall	{ "score": [], "tuple_text": [], "context": [], "arg1": [], "rel": [], "arg2s": [] }
The cells in animals have a nucleus, while plant cells do not have a nucleus.	{ "score": [ 0.9200000166893005, 0.8999999761581421 ], "tuple_text": [ "(The cells in animals; have; a nucleus)", "(plant cells; do not have; a nucleus)" ], "context": [ "", "" ], "arg1": [ "The cells in animals", "plant cells" ], "rel": [ "have", "do not have" ], "arg2s": [ [ "a nucleus" ], [ "a nucleus" ] ] }
The cells in plants have cell walls while animal cells do NOT have cell walls.	{ "score": [ 0.9200000166893005, 0.8999999761581421 ], "tuple_text": [ "(The cells in plants; have; cell walls)", "(animal cells; do NOT have; cell walls)" ], "context": [ "", "" ], "arg1": [ "The cells in plants", "animal cells" ], "rel": [ "have", "do NOT have" ], "arg2s": [ [ "cell walls" ], [ "cell walls" ] ] }
a) cell wall b) cell membrane c) mitochondrion d) chromosome	{ "score": [], "tuple_text": [], "context": [], "arg1": [], "rel": [], "arg2s": [] }
No reptiles have fur. (MeP)	{ "score": [ 0.8999999761581421 ], "tuple_text": [ "(No reptiles; have; fur)" ], "context": [ "" ], "arg1": [ "No reptiles" ], "rel": [ "have" ], "arg2s": [ [ "fur" ] ] }
Cell membrane	{ "score": [], "tuple_text": [], "context": [], "arg1": [], "rel": [], "arg2s": [] }
Chemical energy that was waiting around,doing nothing much but sitting in the battery being potential,suddenly starts turning into electrical energy.	{ "score": [ 0.7900000214576721, 0.9100000262260437, 0.9100000262260437 ], "tuple_text": [ "(Chemical energy; was waiting; L:around)", "(Chemical energy; doing much; nothing)", "(Chemical energy; sitting; in the battery)" ], "context": [ "", "", "" ], "arg1": [ "Chemical energy", "Chemical energy", "Chemical energy" ], "rel": [ "was waiting", "doing much", "sitting" ], "arg2s": [ [ "L:around" ], [ "nothing" ], [ "in the battery" ] ] }
Inside the muscle cells of the human (or any animal),the chemical energy is transformed (changed) into mechanical work and heat.	{ "score": [ 0.9599999785423279, 0.7200000286102295 ], "tuple_text": [ "(the chemical energy; is transformed; into mechanical work and heat; L:Inside the muscle cells of the human (or any animal)", "(the chemical energy; changed; )" ], "context": [ "", "" ], "arg1": [ "the chemical energy", "the chemical energy" ], "rel": [ "is transformed", "changed" ], "arg2s": [ [ "into mechanical work and heat", "L:Inside the muscle cells of the human (or any animal" ], [ "" ] ] }
· Sexual reproduction involved flowering plants (two parents).	{ "score": [ 0.8999999761581421 ], "tuple_text": [ "(Sexual reproduction; involved; flowering plants)" ], "context": [ "" ], "arg1": [ "Sexual reproduction" ], "rel": [ "involved" ], "arg2s": [ [ "flowering plants" ] ] }
Finding the original source of materials used to manufacture skis is not easily done. The materials for skis are common in many products, and factories that make these materials are scattered throughout the country. The assumption cannot always be made that the materials will come from the closest factory, since not all materials are produced in every factory, and the specific products made in each factory change based on the overall demand for each material. The best approximation for the average travel distance for any given material is to assume that the factory of origin is randomly selected. With a sufficiently large number of skis in consideration, the distance traveled is equal to the distance to the center of all the factories. This reasoning has been used to calculate the average embodied energy needed to complete the transportation phase.	{ "score": [ 0.8500000238418579, 0.8799999952316284, 0.9100000262260437, 0.9399999976158142, 0.7300000190734863, 0.949999988079071, 0.9200000166893005, 0.9200000166893005, 0.7699999809265137, 0.8999999761581421, 0.7300000190734863, 0.9100000262260437, 0.8899999856948853, 0.9200000166893005 ], "tuple_text": [ "(factories; make; these materials are scattered throughout the country)", "Context(factories make,List([154, 173))):(these materials; are scattered; throughout the country)", "(the specific products; made; L:in each factory change)", "(the specific products made in each factory change; to assume; With a sufficiently large number of skis in consideration, the distance traveled is equal to the distance to the center of all the factories)", "Context(the specific products made in each factory change to assume,List([379, 566))):(the factory of origin; is randomly selected; )", "Context(the specific products made in each factory change to assume,List([379, 566))):(the distance traveled; is; equal to the distance to the center of all the factories)", "(the average embodied energy; needed; to complete the transportation phase)", "(the specific products made in each factory change; is; to assume that the factory of origin is randomly selected. With a sufficiently large number of skis in consideration, the distance traveled is equal to the distance to the center of all the factories)", "(Finding the original source of materials; is not easily done; )", "(This reasoning; has been used; to calculate the average embodied energy)", "(the distance; traveled; )", "(each factory change; based; on the overall demand for each material)", "(This reasoning; to calculate; the average embodied energy needed)", "(The materials for skis; are; common; L:in many products)" ], "context": [ "", "factories make,List([154, 173))", "", "", "the specific products made in each factory change to assume,List([379, 566))", "the specific products made in each factory change to assume,List([379, 566))", "", "", "", "", "", "", "", "" ], "arg1": [ "factories", "these materials", "the specific products", "the specific products made in each factory change", "the factory of origin", "the distance traveled", "the average embodied energy", "the specific products made in each factory change", "Finding the original source of materials", "This reasoning", "the distance", "each factory change", "This reasoning", "The materials for skis" ], "rel": [ "make", "are scattered", "made", "to assume", "is randomly selected", "is", "needed", "is", "is not easily done", "has been used", "traveled", "based", "to calculate", "are" ], "arg2s": [ [ "these materials are scattered throughout the country" ], [ "throughout the country" ], [ "L:in each factory change" ], [ "With a sufficiently large number of skis in consideration, the distance traveled is equal to the distance to the center of all the factories" ], [ "" ], [ "equal to the distance to the center of all the factories" ], [ "to complete the transportation phase" ], [ "to assume that the factory of origin is randomly selected. With a sufficiently large number of skis in consideration, the distance traveled is equal to the distance to the center of all the factories" ], [ "" ], [ "to calculate the average embodied energy" ], [ "" ], [ "on the overall demand for each material" ], [ "the average embodied energy needed" ], [ "common", "L:in many products" ] ] }
� � Elaters are long cells that, in dry conditions, shrink and cause a springlike compression of a helical structure present in their cell walls.	{ "score": [ 0.7300000190734863, 0.75, 0.8700000047683716 ], "tuple_text": [ "(Elaters; are; long cells that, in dry conditions, shrink and cause a springlike compression of a helical structure present in their cell walls)", "(long cells; shrink; )", "(long cells; cause; a springlike compression of a helical structure present in their cell walls)" ], "context": [ "", "", "" ], "arg1": [ "Elaters", "long cells", "long cells" ], "rel": [ "are", "shrink", "cause" ], "arg2s": [ [ "long cells that, in dry conditions, shrink and cause a springlike compression of a helical structure present in their cell walls" ], [ "" ], [ "a springlike compression of a helical structure present in their cell walls" ] ] }
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A common example of a chemical substance is pure water.

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Chemical energy in (for example) wood, transforms into heat when you burn the wood, and whe…n you get enough heat, you will then also get light.

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g/mL weighed in air of density

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Most of the genetic variation in sexually reproducing species is produced during reproduction.

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Reproduction can be divided into two broad types, asexual reproduction and sexual reproduction, that differ in the genetic mechanisms used and the resulting amount of genetic variation between parents and offspring.

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The heat was transferred by moving molecules within the spoons.

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Carbohydrates are nutrients composed of carbon, oxygen, and hydrogen. They are a major source of energy. In addition to providing energy, carbohydrates provide the raw materials to make parts of cells. Carbohydrates. Simple carbohydrates are sugars. One sugar, glucose, is the major source of energy for your body's cells. Complex carbohydrates are made up of many sugar molecules linked together in a chain.

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• Cell wall

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The cells in animals have a nucleus, while plant cells do not have a nucleus.

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The cells in plants have cell walls while animal cells do NOT have cell walls.

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a) cell wall b) cell membrane c) mitochondrion d) chromosome

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No reptiles have fur. (MeP)

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Cell membrane

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Chemical energy that was waiting around,doing nothing much but sitting in the battery being potential,suddenly starts turning into electrical energy.

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Inside the muscle cells of the human (or any animal),the chemical energy is transformed (changed) into mechanical work and heat.

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· Sexual reproduction involved flowering plants (two parents).

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Finding the original source of materials used to manufacture skis is not easily done. The materials for skis are common in many products, and factories that make these materials are scattered throughout the country. The assumption cannot always be made that the materials will come from the closest factory, since not all materials are produced in every factory, and the specific products made in each factory change based on the overall demand for each material. The best approximation for the average travel distance for any given material is to assume that the factory of origin is randomly selected. With a sufficiently large number of skis in consideration, the distance traveled is equal to the distance to the center of all the factories. This reasoning has been used to calculate the average embodied energy needed to complete the transportation phase.

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� � Elaters are long cells that, in dry conditions, shrink and cause a springlike compression of a helical structure present in their cell walls.

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