premise
stringlengths 1
69.2k
| hypothesis
stringlengths 21
234
| label
class label 2
classes |
|---|---|---|
As the mineral cools, the crystal structure begins to form and diffusion of isotopes is less easy.
|
Mineral crystals are formed when hot lava cools.
| 0neutral
|
As the rock cools, minerals form.
|
Mineral crystals are formed when hot lava cools.
| 0neutral
|
As the rocks cool from lava, for instance at the deep mid-ocean ridges where the earth's surface plates are formed, crystals line up with the direction of the magnetic field.
|
Mineral crystals are formed when hot lava cools.
| 1entails
|
The rate of cooling and crystallization affect the size of mineral crystals.
|
Mineral crystals are formed when hot lava cools.
| 0neutral
|
When lava cools very quickly, no crystals form and the rock looks shiny and glasslike.
|
Mineral crystals are formed when hot lava cools.
| 0neutral
|
glass (volcanic) Natural glass (obsidian) that forms when molten lava cools too rapidly to permit crystal growth.
|
Mineral crystals are formed when hot lava cools.
| 0neutral
|
Hazardous Waste in El Dorado County The citizen's of El Dorado County including industry, government, agriculture and residential sources are not large generators of hazardous waste.
|
Industry is the greatest source of hazardous waste.
| 0neutral
|
Industry is the greatest generator of hazardous waste.
|
Industry is the greatest source of hazardous waste.
| 1entails
|
The separated collection of household waste containing hazardous substances and similar waste from industry, private trade and institutions, at source, can reduce the hazard potential of waste.
|
Industry is the greatest source of hazardous waste.
| 0neutral
|
An echo is sound waves bouncing back from a hard surface.
|
A(n) echo is heard when sound waves bounce back from a surface that they can't pass through.
| 1entails
|
An examination in which sound waves are bounced off tissues and the echoes are converted into a picture (sonogram).
|
A(n) echo is heard when sound waves bounce back from a surface that they can't pass through.
| 0neutral
|
Either way, the instrument records the echoes of sound waves bouncing off anything encountered in the uterus.
|
A(n) echo is heard when sound waves bounce back from a surface that they can't pass through.
| 0neutral
|
The transducer sends out sound waves that pass through the body and are echoed back.
|
A(n) echo is heard when sound waves bounce back from a surface that they can't pass through.
| 0neutral
|
A well is a hole drilled into an aquifer, like the one described above, by a water supplier.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
A well is a hole drilled into an aquifer.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
Artificial discharge is induced by well digging or borehole drilling.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 0neutral
|
Basically, a well is a hole drilled into an aquifer.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
Drilling We offer two and three hole drilling as well as custom drilling.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 0neutral
|
Water that meets this definition and is vaporized, then condensed, may be labelled distilled water Well water Bottled water from a hole bored, drilled, or otherwise constructed in the ground, which taps the water of an aquifer.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
Well Water" means water from a hole bored, drilled, or otherwise constructed in the ground which taps the water of an aquifer.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
Wells are drilled down to an aquifer to draw groundwater to the surface.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
Wells are drilled into aquifers.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
When installing a well, a hole is drilled into the ground to tap into an aquifer for drinking water.
|
A(n) well is a hole that is dug or drilled through the ground down to an aquifer.
| 1entails
|
Iron peas grow well on red soils.
|
Iron in the soil causes mars to look red.
| 0neutral
|
It's caused by a deficiency of iron in the soil and is easily corrected by adding an iron supplement to the soil around the plant.
|
Iron in the soil causes mars to look red.
| 0neutral
|
Mars has a reddish tint caused by lots of red dust called iron oxide.
|
Iron in the soil causes mars to look red.
| 1entails
|
Mars is often referred to as the Red Planet because its surface rocks and soil are colored by oxidized iron minerals (e.g., rust), and dust blown into its thin atmosphere makes its sky look reddish as well.
|
Iron in the soil causes mars to look red.
| 1entails
|
Mars looks red because iron in its surface soil long ago reacted with the tiny amount of oxygen left on Mars, making rust.
|
Iron in the soil causes mars to look red.
| 1entails
|
Mars looks red because its surface is covered with reddish iron oxide dust (rust).
|
Iron in the soil causes mars to look red.
| 1entails
|
Often red, iron rich clays or soils are erroneously referred to as laterite;
|
Iron in the soil causes mars to look red.
| 0neutral
|
The red color of the soil is due to the precipitation of iron oxides and hydroxides in the B horizon.
|
Iron in the soil causes mars to look red.
| 0neutral
|
Viking missions that landed on Mars confirmed that the soil there was indeed red from iron oxides (commonly know as rust
|
Iron in the soil causes mars to look red.
| 1entails
|
28 The magnetic field does no work on a moving charge.
|
Work is what it is called when a charge moves against a field.
| 0neutral
|
Exceptions are made for long distance charges, equipment for field work, and calls made while traveling on project business.
|
Work is what it is called when a charge moves against a field.
| 0neutral
|
Work is done by the electric field if the electric force acting on the charge causes it to move from one point to another.
|
Work is what it is called when a charge moves against a field.
| 1entails
|
Work would be required to move a positive test charge towards the sphere against the electric field.
|
Work is what it is called when a charge moves against a field.
| 1entails
|
ALLOPATRIC SPECIATION Allopatric speciation is the formation of new species after a population has been separated geographically.
|
Sympatric speciation is when a new species arises without geographic separation.
| 0neutral
|
Allopatric speciation occurs when a new species arises in a geographic area that is isolated from the parent stock.
|
Sympatric speciation is when a new species arises without geographic separation.
| 0neutral
|
Allopatric speciation occurs when some members of a species become geographically separated.
|
Sympatric speciation is when a new species arises without geographic separation.
| 0neutral
|
Assortative mating may be required for sympatric speciation, meaning the evolution of a new species without geographic isolation.
|
Sympatric speciation is when a new species arises without geographic separation.
| 1entails
|
Finally, in sympatric speciation species diverge without geographic isolation or changes in habitat.
|
Sympatric speciation is when a new species arises without geographic separation.
| 1entails
|
On the origin of species by sympatric speciation.
|
Sympatric speciation is when a new species arises without geographic separation.
| 0neutral
|
Sympatric Speciation Divergence occurs without geographic separation, i.e derived species arises within range of ancestral species.
|
Sympatric speciation is when a new species arises without geographic separation.
| 1entails
|
Sympatric speciation refers to the formation of two or more descendant species from a single ancestral species all occupying the same geographic location.
|
Sympatric speciation is when a new species arises without geographic separation.
| 1entails
|
The formation of a new species is called speciation.
|
Sympatric speciation is when a new species arises without geographic separation.
| 0neutral
|
This is called sympatric speciation.
|
Sympatric speciation is when a new species arises without geographic separation.
| 0neutral
|
This process, called ecological speciation, may be one of the easiest and fastest ways that new species arise.
|
Sympatric speciation is when a new species arises without geographic separation.
| 0neutral
|
For example, in methane, the bonding electrons are shared by all five atoms equally.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
Identical atoms bond together with equal sharing of all bonding electrons.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
If the atoms share electrons equally, the bond is non-polar.
|
When electrons are shared equally, it is called nonpolar bonds.
| 1entails
|
If they share four electrons it is called a double bond .
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
If two atoms share six electrons, the bond is called a triple bond .
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
In a nonpolar covalent bond , atoms share electrons equally.
|
When electrons are shared equally, it is called nonpolar bonds.
| 1entails
|
In covalent bonding, electrons are shared.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
In covalent bonds, electron pairs are shared equally between atoms of equal electronegativity.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
NONPOLAR COVALENT BONDS occur between two atoms that share electrons equally.
|
When electrons are shared equally, it is called nonpolar bonds.
| 1entails
|
Non-Polar Covalent Bonds A non polar covalent bond has two electrons shared equally between two atoms.
|
When electrons are shared equally, it is called nonpolar bonds.
| 1entails
|
Nonpolar covalent bond A type of covalent bond formed by equal sharing of electrons between two identical nonmetals whose electronegativities are the identical.
|
When electrons are shared equally, it is called nonpolar bonds.
| 1entails
|
The Hydrogen Bond In the covalent bonds of Nature, not all atoms share their electrons equally.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
These carbon-hydrogen bonds are nonpolar, meaning that the two atoms share electrons equally; in other words, they have an equal pull on the electrons in the bond, causing these sections of the molecule to lack a dipole-dipole intermolecular attraction.
|
When electrons are shared equally, it is called nonpolar bonds.
| 1entails
|
These covalent bonds are called nonpolar covalent bonds because the electrons shared by the adjacent atoms in the bonds are shared equally The consequence of this equal sharing of electrons is that there is no charge separation (dipole moment).
|
When electrons are shared equally, it is called nonpolar bonds.
| 1entails
|
This shared pair of electrons is called a chemical bond .
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
This situation is called a polar bond in which the electrons in the bond are being shared, but not equally shared.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
True or False A covalent bond involves the sharing of electrons between two atoms, but the electrons are not always shared equally.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
When atoms of different elements form bonds, they don't share the electrons equally.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
When atoms share electrons as they bond together, this is called a covalent bond .
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
When electrons are not shared equally in a covalent bond, the molecule is described as polar.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
covalent bond A bond in which an electron pair is equally shared by protons in two adjacent atoms.
|
When electrons are shared equally, it is called nonpolar bonds.
| 0neutral
|
Figures rounded to three significant digits.
|
Rounding is when one or more ending digits are dropped to get the correct number of significant figures.
| 0neutral
|
He sends a correction (the round is not fired) and calls for Number 5 to fire: NUMBER 6, DROP 50, NUMBER 6 IS ADJUSTED.
|
Rounding is when one or more ending digits are dropped to get the correct number of significant figures.
| 0neutral
|
Numbers that end in a digit of 5 or more are rounded up to the next even ten.
|
Rounding is when one or more ending digits are dropped to get the correct number of significant figures.
| 0neutral
|
Rounding off a number is the process of dropping one or more digits so that the value contains only those digits that are significant or necessary in subsequent computations (Brinker, 1984).
|
Rounding is when one or more ending digits are dropped to get the correct number of significant figures.
| 1entails
|
Solve the following multiplication and division problems and then round to the correct number of significant digits.
|
Rounding is when one or more ending digits are dropped to get the correct number of significant figures.
| 0neutral
|
numbers are rounded to get a correct total.
|
Rounding is when one or more ending digits are dropped to get the correct number of significant figures.
| 0neutral
|
PLants absorb the water from the soil (through their roots) and then release it back into the atmosphere by transpiration (evaporation from the leaves).
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Plants absorb water from the soil and release part of it through their leaves by a process called transpiration .
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Some of the water returns to the atmosphere through transpiration , a process by which water is taken up by trees and plants through their roots, and is released back into the air through their leaves.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
T Transpiration is the process by which water that is absorbed by plants, usually through the roots, is evaporated into the atmosphere from the plant surface, such as leaf pores.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Through a process called transpiration, plants will release considerable amounts of water vapor through tiny leaf openings called stomata.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Through transpiration, water is absorbed by the roots of plants, passed through their stems and other structures, and released from their leaves as water vapour.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Transpiration The process by which water is absorbed by the root system of plants, moves through the plant, and then evaporates into the atmosphere as water vapor.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Transpiration The process in which vapor is released through the pores of plant tissue, simultaneously causing water to be absorbed by the roots.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Transpiration describes how plants take liquid water from the soil and turn it into water vapor, which is released through leaves.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Transpiration occurs as water absorbed by plant roots is drawn up the stalk and stems of plants into the leaves, where it is released as pure water vapor through openings called stomata.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Transpiration, the process by which moisture is carried through plants from roots to leaves, where it changes to vapor and is released to the atmosphere
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Trees draw ground water up through their roots and release it into the atmosphere(transpiration).
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Water present in soils is extracted by plants through transpiration and results in the release of water vapor into the atmosphere.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
transpiration --process by which water that is absorbed by plants, usually through the roots, is evaporated into the atmosphere from the plant surface, such as leaf pores.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
transpiration The process in plants by which water is taken up by the roots and released as water vapor by the leaves.
|
Transpiration is when plant roots absorb liquid water and release water vapor into the atmosphere.
| 1entails
|
Constructive Interference happens when two or more waves come together to form a larger and stronger wave, matching their crests and troughs .
|
Constructive interference is when two waves combine to create a larger wave.
| 1entails
|
Determine the orientation of lines of constructive interference between these two waves.
|
Constructive interference is when two waves combine to create a larger wave.
| 0neutral
|
In holography, there are two basic waves that come together to create the interference pattern.
|
Constructive interference is when two waves combine to create a larger wave.
| 0neutral
|
Interactive Java Tutorial Interference of Light Explore how two light waves can combine to produce interference with one another.
|
Constructive interference is when two waves combine to create a larger wave.
| 0neutral
|
Spherical waves emerge behind the two slits and create an interference pattern.
|
Constructive interference is when two waves combine to create a larger wave.
| 0neutral
|
Standing waves and interference in waves.
|
Constructive interference is when two waves combine to create a larger wave.
| 0neutral
|
The opposite of this is when the two waves create deconstructive interference essentially canceling out the waves.
|
Constructive interference is when two waves combine to create a larger wave.
| 0neutral
|
Two sources of disturbance create two sets of concentric waves that form an interference pattern at points where the waves overlap.
|
Constructive interference is when two waves combine to create a larger wave.
| 0neutral
|
When the crest of one wave joins the crest of the other wave, the two waves form an extra large crest--constructive interference.
|
Constructive interference is when two waves combine to create a larger wave.
| 1entails
|
When the crests of one wave coincide with the crests of another wave, interference is constructive and a large wave results.
|
Constructive interference is when two waves combine to create a larger wave.
| 1entails
|
When waves combine to make a larger wave the effect is called constructive interference;
|
Constructive interference is when two waves combine to create a larger wave.
| 1entails
|
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.