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Mercury_7207235-C | premise | erosion from flowing water will change a sedimentary rock into sediment | T F T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7207235-C | premise | limestone is a kind of sedimentary rock and marble is a kind of metamorphic rock | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7207235-C | hypothesis | erosion from flowing water will change a sedimentary rock, such as limestone, into a metamorphic rock, such as marble | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7207235-C | entailment | erosion from flowing water will change a sedimentary rock into sediment & limestone is a kind of sedimentary rock and marble is a kind of metamorphic rock |- erosion from flowing water will change a sedimentary rock, such as limestone, into a metamorphic rock, such as marble | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-D | premise | in order for sediments to become sedimentary rock, the sediments are generally compacted | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-D | premise | the opposite of compact is liquefied | F F ? | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-D | hypothesis | in order for sediments to become rock, the sediments are generally liquefied | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-D | entailment | in order for sediments to become sedimentary rock, the sediments are generally compacted & the opposite of compact is liquefied |- in order for sediments to become rock, the sediments are generally liquefied | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-A | premise | in order for sediments to become rock, the sediments must be separated from organic material | T F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-A | premise | if something is separated from something else, then that something is generally mixed with that something else | F F T | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-A | hypothesis | in order for sediments to become rock, the sediments are generally mixed with organic material | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7206115-A | entailment | in order for sediments to become rock, the sediments must be separated from organic material & if something is separated from something else, then that something is generally mixed with that something else |- in order for sediments to become rock, the sediments are generally mixed with organic material | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-D | premise | one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples have the same mass | T F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-D | premise | mass is a measure of amount of energy | T F ? | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-D | hypothesis | one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples have the same amount of energy | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-D | entailment | one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples have the same mass & mass is a measure of amount of energy |- one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples have the same amount of energy | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-C | premise | one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples are made of aluminum | T F T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-C | premise | aluminum is made of atoms | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-C | hypothesis | one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples have the same number of atoms | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205153-C | entailment | one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples are made of aluminum & aluminum is made of atoms |- one similarity between a small, solid sample of aluminum and a large, liquid sample of aluminum is that both samples have the same number of atoms | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7205118-D | premise | which change in the state of water particles causes the particles to become arranged in a fixed position | F ? ? T ? T | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205118-D | premise | evaporating is the opposite of condensing | T T T T F F | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205118-D | hypothesis | which change in the state of water particles causes the particles to become arranged in a fixed position evaporating | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7205118-D | entailment | which change in the state of water particles causes the particles to become arranged in a fixed position & evaporating is the opposite of condensing |- which change in the state of water particles causes the particles to become arranged in a fixed position evaporating | ? ? F F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-D | premise | respiratory and digestive systems are not directly involved in movement | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-D | premise | if something is not directly involved in something else then that something else is not involved in that something | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-D | hypothesis | respiratory and digestive are directly involved in movement | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-D | entailment | respiratory and digestive systems are not directly involved in movement & if something is not directly involved in something else then that something else is not involved in that something |- respiratory and digestive are directly involved in movement | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-B | premise | the digestive system is directly involved in digestion | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-B | premise | the muscular system is directly involved in movement | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-B | hypothesis | digestive and muscular are directly involved in movement | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7179953-B | entailment | the digestive system is directly involved in digestion & the muscular system is directly involved in movement |- digestive and muscular are directly involved in movement | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-B | premise | vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-B | premise | vultures do not take nonliving matter from the environment | F F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-B | hypothesis | vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms and taking nonliving matter from the environment | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-B | entailment | vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms & vultures do not take nonliving matter from the environment |- vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms and taking nonliving matter from the environment | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-A | premise | vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-A | premise | vultures do not speed up the process of decay | T F ? | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-A | hypothesis | vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms and speeding up the process of decay | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7142170-A | entailment | vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms & vultures do not speed up the process of decay |- vultures are scavengers that most likely help ecosystems by quickly consuming dead organisms and speeding up the process of decay | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7138600-D | premise | the digestive system transports nutrients from the food we eat to the rest of the body | T F ? | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7138600-D | premise | an esophagus does not work closely with the digestive system | F F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7138600-D | hypothesis | an esophagus works closely with the digestive system to transport nutrients to the cells | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7138600-D | entailment | the digestive system transports nutrients from the food we eat to the rest of the body & an esophagus does not work closely with the digestive system |- an esophagus works closely with the digestive system to transport nutrients to the cells | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7138583-C | premise | a pancreas does not directly work to protect the human body from disease | ? T ? T F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7138583-C | premise | if an organ does not directly work to protect the body, then that organ does not directly work to protect the body | F T T T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7138583-C | hypothesis | a pancreas directly works to protect the human body from disease | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7138583-C | entailment | a pancreas does not directly work to protect the human body from disease & if an organ does not directly work to protect the body, then that organ does not directly work to protect the body |- a pancreas directly works to protect the human body from disease | ? F F F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-C | premise | the opposite of low viscosity is high viscosity | T T F | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-C | premise | the opposite of an object with a small volume and large mass is an object with high viscosity | T F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-C | hypothesis | low viscosity would most likely be the characteristic of an object with a small volume and large mass | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-C | entailment | the opposite of low viscosity is high viscosity & the opposite of an object with a small volume and large mass is an object with high viscosity |- low viscosity would most likely be the characteristic of an object with a small volume and large mass | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-B | premise | the smaller an object's volume is, the higher the pressure will be on that object | T F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-B | premise | as the volume of an object decreases , the pressure on that object will decrease | F ? F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-B | hypothesis | low pressure would most likely be the characteristic of an object with a small volume and large mass | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7137060-B | entailment | the smaller an object's volume is, the higher the pressure will be on that object & as the volume of an object decreases , the pressure on that object will decrease |- low pressure would most likely be the characteristic of an object with a small volume and large mass | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-C | premise | chemical changes cause different substances to form | T T T T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-C | premise | a rock being eroded by wind is not an example of a chemical change | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-C | hypothesis | a rock being eroded by wind is an example of a chemical change | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-C | entailment | chemical changes cause different substances to form & a rock being eroded by wind is not an example of a chemical change |- a rock being eroded by wind is an example of a chemical change | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-B | premise | evaporation is the opposite of chemical change | F ? F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-B | premise | water evaporating from a puddle is the opposite of chemical change | F T F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-B | hypothesis | water evaporating from a puddle is an example of a chemical change | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-B | entailment | evaporation is the opposite of chemical change & water evaporating from a puddle is the opposite of chemical change |- water evaporating from a puddle is an example of a chemical change | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-A | premise | sand separated from water by filtering is not an example of chemical change | T T T T F T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-A | premise | chemical change is the opposite of chemical separation | F F T F ? F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-A | hypothesis | sand separated from water by filtering is an example of a chemical change | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135870-A | entailment | sand separated from water by filtering is not an example of chemical change & chemical change is the opposite of chemical separation |- sand separated from water by filtering is an example of a chemical change | F ? F F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7135293-B | premise | in an open system, that it decreases happens to the total energy of the system as energy conversions take place | F T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135293-B | premise | a closed system contains only one substance | F F T | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135293-B | hypothesis | in a closed system, that it decreases happens to the total energy of the system as energy conversions take place | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7135293-B | entailment | in an open system, that it decreases happens to the total energy of the system as energy conversions take place & a closed system contains only one substance |- in a closed system, that it decreases happens to the total energy of the system as energy conversions take place | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7133665-B | premise | chemical reactions cause chemical change | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7133665-B | premise | sawing a wood plank does not illustrate a chemical reaction | T F T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7133665-B | hypothesis | sawing a wood plank illustrates a chemical change | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7133665-B | entailment | chemical reactions cause chemical change & sawing a wood plank does not illustrate a chemical reaction |- sawing a wood plank illustrates a chemical change | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7132108-B | premise | a candle provides light | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7132108-B | premise | providing light does not require the use of mechanical energy | T F T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7132108-B | hypothesis | a candle providing light best represents the use of mechanical energy | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7132108-B | entailment | a candle provides light & providing light does not require the use of mechanical energy |- a candle providing light best represents the use of mechanical energy | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7132003-C | premise | most of the mass of the atom is not located in protons and neutrons | F F F | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7132003-C | premise | neutrons and protons together make up an atom | T T ? | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7132003-C | hypothesis | where is most of the mass of the atom located in the neutrons | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7132003-C | entailment | most of the mass of the atom is not located in protons and neutrons & neutrons and protons together make up an atom |- where is most of the mass of the atom located in the neutrons | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7126228-C | premise | a firecracker converts chemical energy into sound energy and light energy and heat energy | T T F | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7126228-C | premise | if something converts one kind of energy into other kinds of energy then that something originally stores that energy as the first kind of energy | F ? T | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7126228-C | hypothesis | the sound, light, and heat that a firecracker produces are originally stored as electrical energy | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7126228-C | entailment | a firecracker converts chemical energy into sound energy and light energy and heat energy & if something converts one kind of energy into other kinds of energy then that something originally stores that energy as the first kind of energy |- the sound, light, and heat that a firecracker produces are originally stored as electrical energy | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-C | premise | scientists do not use an astronomical unit to measure the distance between stars | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-C | premise | if something is not used to measure something else then that something is not used to measure that something else | T T F | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-C | hypothesis | scientists do use an astronomical unit to measure the distance between stars | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-C | entailment | scientists do not use an astronomical unit to measure the distance between stars & if something is not used to measure something else then that something is not used to measure that something else |- scientists do use an astronomical unit to measure the distance between stars | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-B | premise | scientists do not use an angstrom unit to measure the distance between stars | T T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-B | premise | if something is not used to measure something else then that something is not used to measure that something else | T T F | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-B | hypothesis | scientists do use an angstrom unit to measure the distance between stars | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7122570-B | entailment | scientists do not use an angstrom unit to measure the distance between stars & if something is not used to measure something else then that something is not used to measure that something else |- scientists do use an angstrom unit to measure the distance between stars | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
Mercury_7121940-B | premise | a mirror is not a kind of object | F F T | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7121940-B | premise | chemical energy does not most likely transform into electrical energy | F T T | T | null | eb-train-wrong-answer-turked-entailment |
Mercury_7121940-B | hypothesis | a mirror is an object in which chemical energy does most likely transform into electrical energy | KNOWN | F | null | eb-train-wrong-answer-turked-entailment |
Mercury_7121940-B | entailment | a mirror is not a kind of object & chemical energy does not most likely transform into electrical energy |- a mirror is an object in which chemical energy does most likely transform into electrical energy | F F F | F | FF | eb-train-wrong-answer-turked-entailment |
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