premise stringlengths 1 46.3k | hypothesis stringlengths 21 234 | label stringclasses 2 values |
|---|---|---|
Total Reading, Mathematics, Language, Social Studies, and Science. | The field of study known as mathematics is called the language of science. | neutral |
of language arts and social studies, of mathematics and science. | The field of study known as mathematics is called the language of science. | neutral |
5) in the friction force loop are caused by the surface steps. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
A force (friction force in these cases) must cause the slow-down. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
As they collide and enter the Earth's atmosphere the friction causes them to burn up and we see the beautiful brilliant streaks in our skies. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
Friction is one force causes a ball to roll downhill . | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
In real life, the small but nonzero friction would eventually stop you, or you would feel the small bumps of the imperfect surface if you were moving. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
Microtribology using Friction Force Microscope. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
Observations of the monolayers, and rough friction measurements were made with an atomic force microscope. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
Scanning force microscopes and friction force microscopes are built in a wide variety of designs. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
The authors present a new design for a compact stand-alone force and friction microscope. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
The cause of these painful fluid-filled bumps includes the friction of ill-fitting or stiff shoes and wrinkled socks against the skin. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
The force microscope was equipped to measure topography of the sample surface and the friction force between the sample and the tip. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
The force of friction | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
These meteors collide with the molecules of air in our atmosphere and the resulting friction causes them to burn up. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
This new microscope, the scanning force and friction microscope (SFFM), is sensitive to the chemical composition of the surface and should open new frontiers in tribology. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
Watch for evening thunderstorms in coastal communities, where east winds and the gulf breezes collide, causing an eruption of friction and electricity in the sky. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
When two surfaces try to move past each other these little bumps collide and slow the motion of the surfaces down causing what we call friction. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | entails |
friction forces and friction machines; | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
microscopic details of friction 8. | Friction force is caused by microscopic bumps, lumps, and imperfections colliding. | neutral |
According to Chapman, water from ancient rivers flowing across the Red Planet may still exist in the form of ice beneath rock-covered basins near the equator of Mars. | Water takes the form of ice on planet mars. | neutral |
During aphelion water ice clouds form in the atmosphere, interacting with the dust particles and affecting the temperature of the planet. | Water takes the form of ice on planet mars. | neutral |
ICE The solid form of water. | Water takes the form of ice on planet mars. | neutral |
Ice melting to form water | Water takes the form of ice on planet mars. | neutral |
In a Nature paper, two scientists present evidence that water may be transported into planet interiors in the form of a high-pressure ice called " ice VII ". | Water takes the form of ice on planet mars. | neutral |
In this cycle it can take the form of solid (ice), liquid, gas (water vapor). | Water takes the form of ice on planet mars. | neutral |
Other planets have water, but they either have it as a gas (Venus) or ice (Mars). | Water takes the form of ice on planet mars. | entails |
Right now there are ice caps on the surface, but at one time there may have been water in liquid form under the surface of the planet. | Water takes the form of ice on planet mars. | neutral |
Snow is a form of ice and water. | Water takes the form of ice on planet mars. | neutral |
That's because ice takes up more room than the water from which it's formed--ice is less dense than water. | Water takes the form of ice on planet mars. | neutral |
The Martians, as the story went, constructed an elaborate system of canals to transport life-sustaining water from Mars' polar ice caps to the planet's arid equatorial regions. | Water takes the form of ice on planet mars. | neutral |
The measurements will allow scientists to gauge the amount of water on Mars, including that frozen in the planet s polar ice caps. | Water takes the form of ice on planet mars. | neutral |
The polar ice caps are melted to allow the water to flow in the canals and riverbeds ( Beige Planet Mars p.2). | Water takes the form of ice on planet mars. | neutral |
This drawing shows the design of the Mars microprobes, set to penetrate the planet's south polar ice and sample it for water on Dec. 3. | Water takes the form of ice on planet mars. | neutral |
Water, Ice, and Permafrost on Mars and Europa; | Water takes the form of ice on planet mars. | neutral |
water and ice on Mars; | Water takes the form of ice on planet mars. | neutral |
A gas (answer C) has neither a definite shape nor definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
A gas does not have a definite shape nor a definite size. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
A gas has neither a definite volume nor a definite shape. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
A gas has neither definite volume nor shape; | The gas form of matter has neither a definite shape nor a definite volume. | entails |
A gas is a form of matter that does not have a defined shape or volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
A gas is a phase of matter that has no definite volume or shape. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
A gas is matter that has no definite shape or volume, such as oxygen. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Department of Education Gas does not have a definite shape and it does not have a definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Emphasize that gases have neither definite volume nor definite shape and that they tend to fill up whatever space is available to them. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
GASES have neither a definite shape nor definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gas is a form of matter that does not have a definite volume or shape. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases are characterized as having no definite shape or definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases do not have a definite shape nor a definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have no definite volume or shape. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have neither a definite shape nor a definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have neither definite shape not definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have neither definite volume nor shape. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have no definite shape nor volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have no definite shape or a definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have no definite shape or volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gases have no definite volume and no definite shape. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Gasses have neither a definite shape nor volume, and both of these are defined by the shape and volume of their container. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
However, a gas is a substance with neither a definite shape nor volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
I 4.3.1d Gases have neither a determined shape nor a definite volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Liquid Liquid definite volume but indefinite shape; particles close together but not in fixed positions Gas Gas neither definite volume nor definite shape; particles are at great distances from one another Plasma high temperature, ionized phase of matter as found on the sun. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Matter that has no definite shape and no definite volume is a gas . | The gas form of matter has neither a definite shape nor a definite volume. | entails |
The gas phase does not have a definite shape or volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
The phase of matter that has a definite volume but no definite shape is (A) liquid (B) solid (C) gas (D) plasma. | The gas form of matter has neither a definite shape nor a definite volume. | neutral |
The reason why a gas does not have a definite volume and a definite shape is because the atoms and molecules spread out when the amount of space between them increases. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
The solid state contains its definite shape and volume while liquid has a definite volume not shape while the gases have nothing neither definite shape nor size. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
Thus gas does not have a definite shape and volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
a gas has neither a definite shape nor a definite volume but expands to fill any container in which it is placed. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
gases have neither definite shape nor volume. | The gas form of matter has neither a definite shape nor a definite volume. | entails |
An oxygen atom gains two electrons to form the oxide ion . | Monatomic ions form when a single atom gains or loses electrons. | neutral |
Describe the connection between the electron configuration of an main-group atom and the particular monatomic ion it forms. | Monatomic ions form when a single atom gains or loses electrons. | neutral |
Ionic bonds are formed when atoms become ions by gaining or losing electrons. | Monatomic ions form when a single atom gains or loses electrons. | neutral |
Ions Some atoms have the ability to gain or lose electrons. | Monatomic ions form when a single atom gains or loses electrons. | neutral |
Single electron atom-ion collisions . | Monatomic ions form when a single atom gains or loses electrons. | neutral |
These rules apply to simple ions, called monatomic ions, formed by adding electrons to or removing them from a single atom. | Monatomic ions form when a single atom gains or loses electrons. | entails |
When an atom gains an electron it becomes a POSITIVE ion. | Monatomic ions form when a single atom gains or loses electrons. | neutral |
an atom that gains an electron forms a negatively charged ion, called an anion. | Monatomic ions form when a single atom gains or loses electrons. | neutral |
As the water-vapor-laden air expands, it cools and the vapor condenses on minute particles, forming the cloud we see. | Clouds form(s) when water vapor condenses in the air around specs of matter. | entails |
Clouds form in the free atmosphere primarily as a result of condensation or deposition of water vapor in ascending air. | Clouds form(s) when water vapor condenses in the air around specs of matter. | entails |
Clouds form when the invisible water vapor in the air condenses into visible water droplets or ice crystals. | Clouds form(s) when water vapor condenses in the air around specs of matter. | entails |
Clouds form when water vapor condenses around small particles, like bits of dust or smoke in the air. | Clouds form(s) when water vapor condenses in the air around specs of matter. | entails |
Small particles in the air become surfaces on which water vapor can condense and forms cloud droplets which are known as cloud condensation nuclei. | Clouds form(s) when water vapor condenses in the air around specs of matter. | entails |
When warm air is cooled, the water vapor condenses out and forms clouds which result in precipitation. | Clouds form(s) when water vapor condenses in the air around specs of matter. | entails |
the water vapor condenses to form clouds, which are millions of tiny drops of water; | Clouds form(s) when water vapor condenses in the air around specs of matter. | entails |
As shown in Scheme 2, Swern oxidation of alcohol 12 gave ketone 13. | Secondary alcohol forms a ketone when oxidized. | neutral |
Ketones may be formed by the oxidation of secondary alcohols. | Secondary alcohol forms a ketone when oxidized. | entails |
Peripheral carbon atoms were oxidized, producing aromatic alcohols, ketones; | Secondary alcohol forms a ketone when oxidized. | neutral |
R 2 Secondary alcohols can be oxidized to ketones. | Secondary alcohol forms a ketone when oxidized. | entails |
Secondary alcohols Secondary alcohols are oxidized to give ketones . | Secondary alcohol forms a ketone when oxidized. | entails |
Secondary alcohols can be oxidized to ketones. | Secondary alcohol forms a ketone when oxidized. | entails |
The ketone is the product of the oxidation of a secondary alcohol. | Secondary alcohol forms a ketone when oxidized. | entails |
The reverse of the MPV reaction, oxidation of an alcohol to a ketone, is termed the Oppenauer oxidation. | Secondary alcohol forms a ketone when oxidized. | neutral |
exhibit hydrogen bonding higher solubility in water can be oxidized to form aldehydes or ketones more intense color Tertiary alcohols can't be oxidized to either aldehydes or ketones. | Secondary alcohol forms a ketone when oxidized. | neutral |
A liquid solution consists of a dissolved substance called a solute, and a liquid called a solvent. | A solution forms when a solute dissolves in a solvent. | entails |
A solution consists of a solute (def) dissolved in a solvent (def) . | A solution forms when a solute dissolves in a solvent. | entails |
A solution is formed when a solid (solute) is dissolved in a liquid (solvent). | A solution forms when a solute dissolves in a solvent. | entails |
A solvent is a substance, that becomes a solution by dissolving a solid, liquid, or gaseous solute. | A solution forms when a solute dissolves in a solvent. | entails |
A solvent is the liquid in a solution that dissolves the substance in the solution. | A solution forms when a solute dissolves in a solvent. | entails |
All solutions are composed of a solvent (water or other fluid) and a solute (the dissolved substance). | A solution forms when a solute dissolves in a solvent. | entails |
Background Solution of Liquids A solution is formed when a (usually solid) solute is dissolved in a liquid solvent . | A solution forms when a solute dissolves in a solvent. | entails |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.