premise stringlengths 1 46.3k | hypothesis stringlengths 21 234 | label stringclasses 2 values |
|---|---|---|
Materials that strongly resist the movement of charge are called electrical insulators, or just insulators. | You call materials that have high resistance to electric current electric insulators. | entails |
Materials which do not allow an electric current to flow well are called insulators. | You call materials that have high resistance to electric current electric insulators. | entails |
Materials with high resistance, like Plexiglas and rubber, are called insulators, since they do not easily allow electricity to pass through them. | You call materials that have high resistance to electric current electric insulators. | entails |
Other materials are resistant to the flow of electric current. | You call materials that have high resistance to electric current electric insulators. | neutral |
Resistivity is a measure of the material's ability to oppose electric current. | You call materials that have high resistance to electric current electric insulators. | neutral |
SEMICONDUCTOR A material whose electrical resistivity is between that of insulators and conductors. | You call materials that have high resistance to electric current electric insulators. | neutral |
The heating of an insulating material by a high-frequency electric field . | You call materials that have high resistance to electric current electric insulators. | neutral |
The material that prevents electricity from flowing through or leaking is called an insulator of electricity. | You call materials that have high resistance to electric current electric insulators. | entails |
The resistance of a material to passage through it of an electric current. | You call materials that have high resistance to electric current electric insulators. | neutral |
These asbestos, or asbestiform, mineral fibers have high tensile strength and desirable thermal and electric insulating properties and resist chemical degradation. | You call materials that have high resistance to electric current electric insulators. | neutral |
the ability of a material to resist the flow of electric current. | You call materials that have high resistance to electric current electric insulators. | neutral |
Anaerobic prokaryotes do not need oxygen. | You call prokaryotes that do not need oxygen for respiration anaerobic. | entails |
Anaerobic respiration - | You call prokaryotes that do not need oxygen for respiration anaerobic. | neutral |
Flavoproteins in anaerobic respirers can generate oxygen radicals. | You call prokaryotes that do not need oxygen for respiration anaerobic. | neutral |
If the electron acceptor is not O2 the process is called anaerobic respiration. | You call prokaryotes that do not need oxygen for respiration anaerobic. | neutral |
however, facultative anaerobic organisms will both ferment and undergo respiration in the presence of oxygen. | You call prokaryotes that do not need oxygen for respiration anaerobic. | neutral |
this is called anaerobic respiration . | You call prokaryotes that do not need oxygen for respiration anaerobic. | neutral |
As stated above, the human ear can hear sound waves in the 20-20,000 Hz range and ultrasound refers to sound waves that are above 20,000 Hz. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
High-frequency sound waves (ultrasound), which cannot be heard by humans, are bounced off organs and tissue. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
In physics, 'ultrasound' refers to sound waves with a frequency too high for humans to hear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
The ultrasound waves used in Vascular Laboratory practices are very high frequency sound waves, far beyond detection by the human ear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
To be considered ultrasound, sound waves must have a frequency greater than 20,000 Hz (20 KHz), rendering them inaudible to human ears. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasonics Ultrasound is high frequency sound that is inaudible to the human ear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound A method of imaging the breast using high frequency sound waves. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | neutral |
Ultrasound Sound waves of high frequencies above the range of hearing. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound Sound waves that are inaudible to the human ear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound is a sound wave in a frequency too high to be heard by the human ear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound is a sound with a pitch so high that it can not be heard by the human ear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound is simply high frequency sounds waves above the range that we can hear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound is sound at frequencies above 20 kHz, too high to be detected by normal human hearing. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound is ultra high frequency sound, well above detection by the human ear--in the range of 1 million to 10 million hertz. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound refers to sound waves having a frequency higher than what a human can hear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound refers to sound waves of a frequency which are not audible to the human ear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
Ultrasound uses high-frequency sound waves to get an image of the breast and can help determine if a lump is a cyst or a solid mass. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | neutral |
Ultrasound waves are produced by oscillating crystals at a frequency that is inaudible to the human ear. | You call sound that has a wave frequency higher than the human ear can detect ultrasound. | entails |
52 These enzymes digest complex carbohydrates and disaccharides to absorbable monosaccharides. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
A disaccharide consists of two monosaccharides such as glucose. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
A disaccharide is a sugar (a carbohydrate) composed of two monosaccharides. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
A disaccharide is formed from two monosaccharides. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
A disaccharide or biose is the carbohydrate formed when two monosaccharides undergo a condensation reaction which involves the elimination of a small molecule, such as water, from the functional groups only. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Compare monosaccharides, disaccharides, and polysaccharides. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
Disaccharide : A carbohydrate formed by linking a pair of monosaccharides. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Disaccharides --two monosaccharides linked together. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Disaccharides These sugars are formed when two monosaccharide molecules join together with the elimination of one molecule of water. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Disaccharides are formed when 2 monosaccharides molecules bond together. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Disaccharides are formed when two monosaccharides are chemically bonded together. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Disaccharides are formed when two monosaccharides, or two single simple sugars, form a bond with removal of water. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Disaccharides contain two monosaccharides joined by condensation. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Disaccharides--CHO made from two monosaccharides--ex. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Figure 10 Disaccharides are formed from monosaccharides by dehydration synthesis. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Monosaccharides may be chemically bonded together to form disaccharides such as sucrose and longer polysaccharides such as starch and cellulose. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
Monosaccharides, disaccharides, and polysaccharides are discussed. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
Name two monosaccharides, two disaccharides and four polysaccharides and their functions. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
Simple carbohydrates -- Simple carbohydrates are monosaccharides and disaccharides occurring naturally in fruits, vegetables, and dairy products. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
The Words of Science disaccharide A carbohydrate molecule composed of two simple sugars (monosaccharides) joined together; | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
The monosaccharides, disaccharides, and polysaccharides, including the dietary carbohydrates. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
They include monosaccharides, disaccharides and polysaccharides. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
Two monosaccharides linked together form a disaccharide (dye-SACK-uh-ride). | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | entails |
a. monosaccharide b. disaccharide c. starch d. carbohydrate e. polysaccharide 3. | You call the carbohydrate formed when two monosaccharides bond together disaccharide. | neutral |
Cavitation -- formation of an air or vapor pocket (or bubble) due to lowering of pressure in a liquid, often as a result of a solid body, such as a propeller or piston, moving through the liquid; | You call the formation of a water vapor pocket cavitation. | entails |
Cavitation is the formation of vapor bubbles in water near a moving propeller blade in regions of low pressure due to Bernoulli's principle. | You call the formation of a water vapor pocket cavitation. | entails |
Cavitation is the rapid formation of vaporous microbubbles in the fluid due to a local drop of pressure below the vaporization pressure at a given temperature. | You call the formation of a water vapor pocket cavitation. | entails |
Cavitation, vapor lock, and restricted lubrication. | You call the formation of a water vapor pocket cavitation. | neutral |
This indicates that the cavitation formation is stable. | You call the formation of a water vapor pocket cavitation. | neutral |
This is called cavitation . | You call the formation of a water vapor pocket cavitation. | neutral |
A hard exoskeleton made of a strong polysaccharide called chitin . | You call the hard case that surrounds the soft parts of some animals the exoskeleton. | neutral |
All Arthropods bear the common characteristics of the lack of an internal skeleton, marking them as invertebrates, (obviously) and a hard, articulated exoskeleton, surrounding their soft tissues. | You call the hard case that surrounds the soft parts of some animals the exoskeleton. | entails |
Animals with exoskeletons. | You call the hard case that surrounds the soft parts of some animals the exoskeleton. | neutral |
Coral is made of the exoskeletons of many thousands of tiny marine animals called polyps. | You call the hard case that surrounds the soft parts of some animals the exoskeleton. | neutral |
With strong calcium carbonate exoskeletons, crustaceans have a very effective shield against some potential enemies, who would simply not be able to bite through such a hard skeleton to reach the soft flesh inside. | You call the hard case that surrounds the soft parts of some animals the exoskeleton. | entails |
INTERFERENCE Constructive interference occurs at a point when two waves meet there crest-to-crest and trough-to-trough,thus reinforcing each other. | You call the high and low points of transverse waves crests and troughs. | neutral |
Like a wave in water, all waves have high points and low points, called crests and troughs. | You call the high and low points of transverse waves crests and troughs. | entails |
Right, or they can amplify each other if two high points ( crests ) or two low points ( troughs ) happen to meet. | You call the high and low points of transverse waves crests and troughs. | neutral |
The compressions of a longitudinal wave A) are analogous to the crests of a transverse wave. | You call the high and low points of transverse waves crests and troughs. | neutral |
The distance between a crest and the next crest (or a trough and the next trough) is called a wavelength . | You call the high and low points of transverse waves crests and troughs. | neutral |
The intersecting points of the waves' crests are called the points of interference. | You call the high and low points of transverse waves crests and troughs. | neutral |
The top of the wave is called the crest and the bottom is called the trough. | You call the high and low points of transverse waves crests and troughs. | entails |
Wave frequency is the number of crests or troughs that pass a given point in one second. | You call the high and low points of transverse waves crests and troughs. | neutral |
Waves 55 feet high, crest to trough, struck the northeast coast of Hawaii. | You call the high and low points of transverse waves crests and troughs. | neutral |
90% of the ocean lies in the bathypelagic (aphotic) zone into which no light penetrates. | You call the lightless part of the ocean aphotic zone. | entails |
Additional similarities between Crater Lake and ocean microbial populations include aphotic zone dominance of group I marine crenarchaeota and green nonsulfur bacteria. | You call the lightless part of the ocean aphotic zone. | neutral |
Anoxia is the result of the metabolic consumption of oxygen in aphotic bottom waters of lakes, estuaries, and oceans in excess of the oxygen provided by physical circulation. | You call the lightless part of the ocean aphotic zone. | neutral |
Export production is the amount of organic matter produced in the ocean by primary production that is not recycled (remineralised) before it sinks into the aphotic zone. | You call the lightless part of the ocean aphotic zone. | neutral |
However, some cases of functional and adaptive significance of biofluorescence in the aphotic zone of the deep ocean is an active area of research. | You call the lightless part of the ocean aphotic zone. | neutral |
In scope, these zones are not of a size to be called oceans (like the Indian Ocean or the Pacific); | You call the lightless part of the ocean aphotic zone. | neutral |
In the episode, SpongeBob becomes stranded in an aphotic zone called Rock Bottom. | You call the lightless part of the ocean aphotic zone. | neutral |
More over California is a part of the so called fire ring , the zone of seismic and volcanic activity that surrounds the Pacific ocean. | You call the lightless part of the ocean aphotic zone. | neutral |
Much of the aphotic zone's energy is supplied by the open ocean in the form of detritus. | You call the lightless part of the ocean aphotic zone. | neutral |
Ninety % of the ocean is in the Aphotic zone. | You call the lightless part of the ocean aphotic zone. | neutral |
Ocean Zones . | You call the lightless part of the ocean aphotic zone. | neutral |
Often called the Littoral Zone , it is the transition zone between the terrestrial ecosystems and the ocean. | You call the lightless part of the ocean aphotic zone. | neutral |
Over 90% of ocean life lives in the Aphotic Zone Disphotic Zone Euphotic Zone . | You call the lightless part of the ocean aphotic zone. | neutral |
The Aphotic Zone of the ocean is the water deeper than about 800 meters (2,625 feet), beyond which no light penetrates. | You call the lightless part of the ocean aphotic zone. | entails |
The aphotic zone is below the level of effective light penetration, and represents a majority of the ocean's volume. | You call the lightless part of the ocean aphotic zone. | entails |
The pelagic part of the aphotic zone can be further divided into vertical regions according to temperature. | You call the lightless part of the ocean aphotic zone. | neutral |
The sunlit zone of the ocean is called the photic zone (or euphotic zone). | You call the lightless part of the ocean aphotic zone. | neutral |
They are everywhere from the intertidal zone to the deepest parts of the ocean. | You call the lightless part of the ocean aphotic zone. | neutral |
This is mostly within the photic zone, but includes parts of the aphotic zone where some plants will migrate seasonally or daily. | You call the lightless part of the ocean aphotic zone. | neutral |
Volcanic arcs and oceanic trenches partly encircling the Pacific Basin form the so-called Ring of Fire, a zone of frequent earthquakes and volcanic eruptions. | You call the lightless part of the ocean aphotic zone. | neutral |
aphotic zone The portion of the ocean where the absence of sunlight prohibits plant growth. | You call the lightless part of the ocean aphotic zone. | entails |
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