DefenceLab/scitail · Datasets at Hugging Face

premise stringlengths 1 69.2k	hypothesis stringlengths 21 234	label class label 2 classes
Carotenoids are highly unsaturated polyisoprene hydrocarbons that are lipid soluble.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Chlorinated hydrocarbons are a group of organic compounds that contain chlorine.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Compounds useful for this purpose are again characterized by a polar group attached to a relatively high molecular weight hydrocarbon chain.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Halogenated Hydrocarbons A group of organic compounds which include one or more atoms of a halogen, e.g., chlorine or bromine, in their molecular structures.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
High explosives are hydrocarbon compounds which give off vapours in various amounts.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Hydrocarbon based surfactants are an example group of amphiphilic compounds.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Hydrocarbons Hydrocarbons are a diverse group of chemicals formed from hydrogen and carbon.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
If organic compounds had formed in water, rather than in the atmosphere, the lipid-hydrocarbon group would have risen to the surface because of insolubility and low density.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Introduction to Biochemistryb CHEM 310 LIPIDS AND MEMBRANES Lipids are long hydrocarbon chains or fused-ring compounds that are insoluble in water, but soluble in hydrocarbon solvents like CCl 4 and acetone.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	1entails
Most of the organic compounds degraded into the straight-chain hydrocarbons that comprise most of petroleum.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Most of these compounds were polynuclear aromatic hydrocarbons (PAHs).	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
One of a group of hydrocarbon compounds containing one or more six-carbon rings characteristic of the benzene series.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
One of the most potent of these are in the aryl hydrocarbon group.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
One set of hydrocarbons is volatile organic compounds (VOCs).	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
Organic compounds of the same group are differentiated by the size of the hydrocarbon group (R) they are found on (a hydrocarbon is a compound composed of hydrogen and carbon).	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
The LIF methods provide qualitative data on the in situ distribution of petroleum hydrocarbons from the fluorescence response induced in the PAHs that are one group of compounds present in petroleum hydrocarbon products.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
The glycerol is a three carbon compound attached to one of the carbons is the nitrogen and phosphate groups , attached to the other two carbons of the glycerol molecule are the two hydrocarbon tails.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
The most basic definition for fatty acids is a class of compounds containing a long hydrocarbon chain with a terminal carboxylate group.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
This specifically targeted compound proved to be one of the most potent hydrocarbon precursors to carcinogenic activity ever synthesized.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
hydrocarbon and lipid metabolism.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
i.e., hydrocarbons, organic compounds containing functional groups, activity in organic compounds.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
polynuclear aromatic hydrocarbons (PAHs) a group, which includes naphthalene and biphenyls, of highly reactive organic compounds that are common components of creosotes, which can be carcinogenic.	A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.	0neutral
A few early Cretaceous rocks show clear imprints of leaves resembling angiosperm leaves.	A mold is an imprint of an organism left in rock.	0neutral
A fossil mold is formed by the impression left in rock by the remains of an organism.	A mold is an imprint of an organism left in rock.	1entails
At Castle Bentheim in Germany, there is a curious smooth rock that the devil used as a pillow, leaving behind an imprint of his ear.	A mold is an imprint of an organism left in rock.	0neutral
Brad Smith provided the leadership to get through the rock and leave a minimal imprint on the landscape.	A mold is an imprint of an organism left in rock.	0neutral
IMPRINT Rock Springs, Wyo., The Office.	A mold is an imprint of an organism left in rock.	0neutral
Imprints of leaves, shells, insects, or other items in the rock.	A mold is an imprint of an organism left in rock.	0neutral
It can be organic (compost, leaf mold, bark chips, shredded leaves) or it can be inorganic (gravel, rock, decomposing granite).	A mold is an imprint of an organism left in rock.	0neutral
Mold can only grow if it has an organic food source like wood, paper, sheet rock or cellulose;	A mold is an imprint of an organism left in rock.	0neutral
My favorite is the winding stream, which begins at a high point in the pavement under what looks like a huge rock, and bubbles down to a shallow pool, running over rocks imprinted with leaves.	A mold is an imprint of an organism left in rock.	0neutral
Rocks are piled around the imprint to preserve it.	A mold is an imprint of an organism left in rock.	0neutral
Sauce's pedigree (God, Patterson's Curse, Seaweed Goorillas, Bullwinkle et al) might reveal a bit about the raw organic slab of rock imprinted here.	A mold is an imprint of an organism left in rock.	0neutral
She developed an original print making process that she named, imprints from nature, using natural materials such as flowers, leaves, and grass as well as rocks and insects.	A mold is an imprint of an organism left in rock.	0neutral
The colony organism that now exists on Earth is also interested in her since her personality is rock solid, an interesting state for an imprinted clone.	A mold is an imprint of an organism left in rock.	0neutral
Then have them use sticks, rocks, leaves, pine cones to paint or imprint on the paper.	A mold is an imprint of an organism left in rock.	0neutral
There's no Rock it can't mold	A mold is an imprint of an organism left in rock.	0neutral
This mold beetle is found in total darkness under and among rocks and organic debris and buried in silt.	A mold is an imprint of an organism left in rock.	0neutral
With two movie themes that open and close the album, DiNizio leaves the rock mold entirely.	A mold is an imprint of an organism left in rock.	0neutral
10.6 setup conservation of linear momentum and kinetic energy for various elastic collisions;	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
Applying conservation of linear momentum to the collision shown in Figure 10.1 gives Conservation of the total kinetic energy gives We now have two equations with two unknown (v 1f and v 2f ) which can be solved.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
Calculate the momentum and kinetic energy before and after the collision to demonstrate the conservation of energy and momentum.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
Discuss conservation of momentum and conservation of energy as it relates to one-dimensional inelastic collisions.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
Elastic Collisions In elastic collisions, both momentum and kinetic energy are conserved.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
In Collisions, Conservation of Momentum And of Energy.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
Include a discussion of Newton's laws, kinematics, impulse-momentum change, momentum conservation, and energy conservation (or non-conservation) in elastic and inelastic collisions.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
Inelastic Collisions The change in cart momentum and kinetic energy through a completely inelastic collision with another cart will also be investigated (Lecture 14 ).	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
This is one of those inelastic collisions where momentum is not conserved.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	0neutral
when an object strikes another object in an inelastic collision (and yes, the collision is inelastic, unless you believe both walker and shell are going to BOUNCE off one another harmlessly), momentum is conserved but not kinetic energy (ref.	A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.	1entails
A flat or plane mirror give a virtual image of the same size as the object but is laterally inverted (left is right and right is left).	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
A plane mirror makes an image called a virtual image .	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
A plane mirror will always produce a virtual image.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
For plane mirrors, virtual images are formed.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
Images formed by plane mirrors are virtual, upright, left-right reversed, the same distance from the mirror as the object's distance, and the same size as the object.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
In the case of plane mirrors, the image is said to be a virtual image .	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
Plane mirrors are the only type of mirror for which a real object always produces an image that is virtual, erect and of the same size as the object.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
The image formed by a plane mirror is neither enlarged nor reduced but is always virtual, erect, and appears to be behind the mirror.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
The image in your bathroom mirror (a plane mirror) is a virtual image.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
This uses a 16 element reflective image slicer in which each of the flat mirrors is tilted at the appropriate angle to form the virtual slit.	A plane mirror has a flat reflective surface and forms only virtual images.	0neutral
We saw that plane mirrors form virtual images, i.e., the image is located behind the mirror and the light rays only appear to come from where the image is located.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
c) The image produced in a plane mirror is virtual.	A plane mirror has a flat reflective surface and forms only virtual images.	1entails
1-1976) Electron Subatomic charged particle.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
ELECTRON Subatomic particle with a negative charge.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
Electrons are the last type subatomic particle.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
It's like a subatomic particle, an electron perhaps.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
Redox Reactions and the Environment Oxidizers accept electrons and are reduced.	A redox reaction rearranges the subatomic particles known as electrons.	1entails
Redox reactions are reactions in which electrons are transferred.	A redox reaction rearranges the subatomic particles known as electrons.	1entails
The electron was the first subatomic particle to be discovered.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
d) Electrons are being transferred in a redox reaction.	A redox reaction rearranges the subatomic particles known as electrons.	1entails
eV Electron volt, a measure of the energy of subatomic particles.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
electron A subatomic particle with a negative charge.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
fewer than half knew that electrons are subatomic particles.	A redox reaction rearranges the subatomic particles known as electrons.	0neutral
35 Wesley always described nature as wholly dependent on God...a voluntarist God who works above the "laws of nature.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
A mathematical formula may describe a law of nature, a scientific truth, or an abstract idea.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
A scientific law always applies under the same conditions, and implies that there is a causal relationship involving its elements.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	1entails
Describe the nature of scientific inquiry.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
Describe the nature of the scientific enterprise.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
Economic laws are statements with regard to the tendencies of man's action under certain conditions.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
Grammar Notes The zero conditional is a structure used for talking about general truths, or scientific facts -- things which always happen under certain conditions.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
It is only natural that a man who is making a scientific study of the laws of human nature should find no room for an assertion that within a certain sphere there are no laws.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
Laws are purely descriptive statements about nature, and do not explain the phenomena that they describe;	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
Natural law is always enforced.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
Naturalism implies a unity and lawfulness in nature, a condition in which nature's reality can be objectively understood, without which the pursuit of scientific knowledge would be useless.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
Other "laws" describe the behavior of certain materials properties as a function of external conditions, such as the Curie and Curie-Weiss laws.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
The alleged truth of a scientific statement always makes false certain other scientific statements which could possibly have been true.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
The intelligible pattern cannot be the sort of regularity that a law of nature describes, or the presence of this pattern would only be evidence that the event was scientifically explicable.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
The modern scientific method was ruthlessly deterministic and reductionistic, describing a simple and static world of regularities, constants, and fixed laws of nature.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
The nature of spirit, as Alan Turing described it to Mrs Morcom, always remained a natural wonder barely compatible with the orthodox academic and scientific world.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
There is a certain natural law at work.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
To be able to describe the Laws of Nature .	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
We in law enforcement certainly know the complex nature of our profession.	A statement that describes what always happens under certain conditions in nature is also known as scientific law.	0neutral
As the turbines move due to the tides, they create electricity.	A turbine using tides in the ocean can create electricity energy.	1entails
Biomass Energy Systems, a subsidiary of Detroit Edison, collects the gas and sells it to Riverview Energy Systems, which uses it to create electricity with two gas turbines.	A turbine using tides in the ocean can create electricity energy.	0neutral
Concentrated solar power plants transform sunlight into thermal energy that can be used to drive a turbine for generating electricity.	A turbine using tides in the ocean can create electricity energy.	0neutral
If you block in the water at high tide and then let it out through a turbine as the tide falls, you can generate electricity.	A turbine using tides in the ocean can create electricity energy.	1entails
In the case of steam turbines, such as would be used for marine applications or for land-based electricity generation, a Parsons type reaction turbine would require approximately double the number of blade rows as a de Laval type impulse turbine, for the same degree of thermal energy conversion.	A turbine using tides in the ocean can create electricity energy.	0neutral
Steam produced in refrigeration also can be use by a turbine in other vehicle types to produce electricity, that can be employed in electric motors or stored in a battery.	A turbine using tides in the ocean can create electricity energy.	0neutral
This is the key to the operation of a nuclear reactor, because as this fission occurs, large amounts of energy in the form of heat is released which can be used to create steam to drive large steam turbines which in turn drive large electricity generators.	A turbine using tides in the ocean can create electricity energy.	0neutral
Wind energy can be converted to electricity by using wind turbines.	A turbine using tides in the ocean can create electricity energy.	0neutral
Wind power density Like water flowing in a river, wind contains energy that can be converted to electricity using wind turbines.	A turbine using tides in the ocean can create electricity energy.	0neutral

Carotenoids are highly unsaturated polyisoprene hydrocarbons that are lipid soluble.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Chlorinated hydrocarbons are a group of organic compounds that contain chlorine.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Compounds useful for this purpose are again characterized by a polar group attached to a relatively high molecular weight hydrocarbon chain.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Halogenated Hydrocarbons A group of organic compounds which include one or more atoms of a halogen, e.g., chlorine or bromine, in their molecular structures.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

High explosives are hydrocarbon compounds which give off vapours in various amounts.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Hydrocarbon based surfactants are an example group of amphiphilic compounds.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Hydrocarbons Hydrocarbons are a diverse group of chemicals formed from hydrogen and carbon.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

If organic compounds had formed in water, rather than in the atmosphere, the lipid-hydrocarbon group would have risen to the surface because of insolubility and low density.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Introduction to Biochemistryb CHEM 310 LIPIDS AND MEMBRANES Lipids are long hydrocarbon chains or fused-ring compounds that are insoluble in water, but soluble in hydrocarbon solvents like CCl 4 and acetone.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

1entails

Most of the organic compounds degraded into the straight-chain hydrocarbons that comprise most of petroleum.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Most of these compounds were polynuclear aromatic hydrocarbons (PAHs).

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

One of a group of hydrocarbon compounds containing one or more six-carbon rings characteristic of the benzene series.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

One of the most potent of these are in the aryl hydrocarbon group.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

One set of hydrocarbons is volatile organic compounds (VOCs).

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

Organic compounds of the same group are differentiated by the size of the hydrocarbon group (R) they are found on (a hydrocarbon is a compound composed of hydrogen and carbon).

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

The LIF methods provide qualitative data on the in situ distribution of petroleum hydrocarbons from the fluorescence response induced in the PAHs that are one group of compounds present in petroleum hydrocarbon products.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

The glycerol is a three carbon compound attached to one of the carbons is the nitrogen and phosphate groups , attached to the other two carbons of the glycerol molecule are the two hydrocarbon tails.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

The most basic definition for fatty acids is a class of compounds containing a long hydrocarbon chain with a terminal carboxylate group.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

This specifically targeted compound proved to be one of the most potent hydrocarbon precursors to carcinogenic activity ever synthesized.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

hydrocarbon and lipid metabolism.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

i.e., hydrocarbons, organic compounds containing functional groups, activity in organic compounds.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

polynuclear aromatic hydrocarbons (PAHs) a group, which includes naphthalene and biphenyls, of highly reactive organic compounds that are common components of creosotes, which can be carcinogenic.

A lipid is one of a highly diverse group of compounds made up mostly of hydrocarbons.

0neutral

A few early Cretaceous rocks show clear imprints of leaves resembling angiosperm leaves.

A mold is an imprint of an organism left in rock.

0neutral

A fossil mold is formed by the impression left in rock by the remains of an organism.

A mold is an imprint of an organism left in rock.

1entails

At Castle Bentheim in Germany, there is a curious smooth rock that the devil used as a pillow, leaving behind an imprint of his ear.

A mold is an imprint of an organism left in rock.

0neutral

Brad Smith provided the leadership to get through the rock and leave a minimal imprint on the landscape.

A mold is an imprint of an organism left in rock.

0neutral

IMPRINT Rock Springs, Wyo., The Office.

A mold is an imprint of an organism left in rock.

0neutral

Imprints of leaves, shells, insects, or other items in the rock.

A mold is an imprint of an organism left in rock.

0neutral

It can be organic (compost, leaf mold, bark chips, shredded leaves) or it can be inorganic (gravel, rock, decomposing granite).

A mold is an imprint of an organism left in rock.

0neutral

Mold can only grow if it has an organic food source like wood, paper, sheet rock or cellulose;

A mold is an imprint of an organism left in rock.

0neutral

My favorite is the winding stream, which begins at a high point in the pavement under what looks like a huge rock, and bubbles down to a shallow pool, running over rocks imprinted with leaves.

A mold is an imprint of an organism left in rock.

0neutral

Rocks are piled around the imprint to preserve it.

A mold is an imprint of an organism left in rock.

0neutral

Sauce's pedigree (God, Patterson's Curse, Seaweed Goorillas, Bullwinkle et al) might reveal a bit about the raw organic slab of rock imprinted here.

A mold is an imprint of an organism left in rock.

0neutral

She developed an original print making process that she named, imprints from nature, using natural materials such as flowers, leaves, and grass as well as rocks and insects.

A mold is an imprint of an organism left in rock.

0neutral

The colony organism that now exists on Earth is also interested in her since her personality is rock solid, an interesting state for an imprinted clone.

A mold is an imprint of an organism left in rock.

0neutral

Then have them use sticks, rocks, leaves, pine cones to paint or imprint on the paper.

A mold is an imprint of an organism left in rock.

0neutral

There's no Rock it can't mold

A mold is an imprint of an organism left in rock.

0neutral

This mold beetle is found in total darkness under and among rocks and organic debris and buried in silt.

A mold is an imprint of an organism left in rock.

0neutral

With two movie themes that open and close the album, DiNizio leaves the rock mold entirely.

A mold is an imprint of an organism left in rock.

0neutral

10.6 setup conservation of linear momentum and kinetic energy for various elastic collisions;

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

Applying conservation of linear momentum to the collision shown in Figure 10.1 gives Conservation of the total kinetic energy gives We now have two equations with two unknown (v 1f and v 2f ) which can be solved.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

Calculate the momentum and kinetic energy before and after the collision to demonstrate the conservation of energy and momentum.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

Discuss conservation of momentum and conservation of energy as it relates to one-dimensional inelastic collisions.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

Elastic Collisions In elastic collisions, both momentum and kinetic energy are conserved.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

In Collisions, Conservation of Momentum And of Energy.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

Include a discussion of Newton's laws, kinematics, impulse-momentum change, momentum conservation, and energy conservation (or non-conservation) in elastic and inelastic collisions.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

Inelastic Collisions The change in cart momentum and kinetic energy through a completely inelastic collision with another cart will also be investigated (Lecture 14 ).

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

This is one of those inelastic collisions where momentum is not conserved.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

0neutral

when an object strikes another object in an inelastic collision (and yes, the collision is inelastic, unless you believe both walker and shell are going to BOUNCE off one another harmlessly), momentum is conserved but not kinetic energy (ref.

A perfectly inelastic collision reduces internal kinetic energy to the minimum it can have while still conserving momentum.

1entails

A flat or plane mirror give a virtual image of the same size as the object but is laterally inverted (left is right and right is left).

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

A plane mirror makes an image called a virtual image .

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

A plane mirror will always produce a virtual image.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

For plane mirrors, virtual images are formed.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

Images formed by plane mirrors are virtual, upright, left-right reversed, the same distance from the mirror as the object's distance, and the same size as the object.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

In the case of plane mirrors, the image is said to be a virtual image .

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

Plane mirrors are the only type of mirror for which a real object always produces an image that is virtual, erect and of the same size as the object.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

The image formed by a plane mirror is neither enlarged nor reduced but is always virtual, erect, and appears to be behind the mirror.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

The image in your bathroom mirror (a plane mirror) is a virtual image.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

This uses a 16 element reflective image slicer in which each of the flat mirrors is tilted at the appropriate angle to form the virtual slit.

A plane mirror has a flat reflective surface and forms only virtual images.

0neutral

We saw that plane mirrors form virtual images, i.e., the image is located behind the mirror and the light rays only appear to come from where the image is located.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

c) The image produced in a plane mirror is virtual.

A plane mirror has a flat reflective surface and forms only virtual images.

1entails

1-1976) Electron Subatomic charged particle.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

ELECTRON Subatomic particle with a negative charge.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

Electrons are the last type subatomic particle.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

It's like a subatomic particle, an electron perhaps.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

Redox Reactions and the Environment Oxidizers accept electrons and are reduced.

A redox reaction rearranges the subatomic particles known as electrons.

1entails

Redox reactions are reactions in which electrons are transferred.

A redox reaction rearranges the subatomic particles known as electrons.

1entails

The electron was the first subatomic particle to be discovered.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

d) Electrons are being transferred in a redox reaction.

A redox reaction rearranges the subatomic particles known as electrons.

1entails

eV Electron volt, a measure of the energy of subatomic particles.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

electron A subatomic particle with a negative charge.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

fewer than half knew that electrons are subatomic particles.

A redox reaction rearranges the subatomic particles known as electrons.

0neutral

35 Wesley always described nature as wholly dependent on God...a voluntarist God who works above the "laws of nature.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

A mathematical formula may describe a law of nature, a scientific truth, or an abstract idea.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

A scientific law always applies under the same conditions, and implies that there is a causal relationship involving its elements.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

1entails

Describe the nature of scientific inquiry.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

Describe the nature of the scientific enterprise.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

Economic laws are statements with regard to the tendencies of man's action under certain conditions.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

Grammar Notes The zero conditional is a structure used for talking about general truths, or scientific facts -- things which always happen under certain conditions.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

It is only natural that a man who is making a scientific study of the laws of human nature should find no room for an assertion that within a certain sphere there are no laws.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

Laws are purely descriptive statements about nature, and do not explain the phenomena that they describe;

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

0neutral

Natural law is always enforced.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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Naturalism implies a unity and lawfulness in nature, a condition in which nature's reality can be objectively understood, without which the pursuit of scientific knowledge would be useless.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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Other "laws" describe the behavior of certain materials properties as a function of external conditions, such as the Curie and Curie-Weiss laws.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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The alleged truth of a scientific statement always makes false certain other scientific statements which could possibly have been true.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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The intelligible pattern cannot be the sort of regularity that a law of nature describes, or the presence of this pattern would only be evidence that the event was scientifically explicable.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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The modern scientific method was ruthlessly deterministic and reductionistic, describing a simple and static world of regularities, constants, and fixed laws of nature.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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The nature of spirit, as Alan Turing described it to Mrs Morcom, always remained a natural wonder barely compatible with the orthodox academic and scientific world.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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There is a certain natural law at work.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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To be able to describe the Laws of Nature .

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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We in law enforcement certainly know the complex nature of our profession.

A statement that describes what always happens under certain conditions in nature is also known as scientific law.

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As the turbines move due to the tides, they create electricity.

A turbine using tides in the ocean can create electricity energy.

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Biomass Energy Systems, a subsidiary of Detroit Edison, collects the gas and sells it to Riverview Energy Systems, which uses it to create electricity with two gas turbines.

A turbine using tides in the ocean can create electricity energy.

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Concentrated solar power plants transform sunlight into thermal energy that can be used to drive a turbine for generating electricity.

A turbine using tides in the ocean can create electricity energy.

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If you block in the water at high tide and then let it out through a turbine as the tide falls, you can generate electricity.

A turbine using tides in the ocean can create electricity energy.

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In the case of steam turbines, such as would be used for marine applications or for land-based electricity generation, a Parsons type reaction turbine would require approximately double the number of blade rows as a de Laval type impulse turbine, for the same degree of thermal energy conversion.

A turbine using tides in the ocean can create electricity energy.

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Steam produced in refrigeration also can be use by a turbine in other vehicle types to produce electricity, that can be employed in electric motors or stored in a battery.

A turbine using tides in the ocean can create electricity energy.

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This is the key to the operation of a nuclear reactor, because as this fission occurs, large amounts of energy in the form of heat is released which can be used to create steam to drive large steam turbines which in turn drive large electricity generators.

A turbine using tides in the ocean can create electricity energy.

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Wind energy can be converted to electricity by using wind turbines.

A turbine using tides in the ocean can create electricity energy.

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Wind power density Like water flowing in a river, wind contains energy that can be converted to electricity using wind turbines.

A turbine using tides in the ocean can create electricity energy.

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