DefenceLab/scitail · Datasets at Hugging Face

premise stringlengths 1 69.2k	hypothesis stringlengths 21 234	label class label 2 classes
Whatever the maximum solubility of a particular solute in a particular solvent, when it's reached, the solution is said to be saturated .	If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.	1entails
When a solution contains as much solute as the solvent can hold at a particular temperature, the solution is said to be a saturated solution at that temperature.	If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.	1entails
classify a solution as saturated, unsaturated or supersaturated, given the composition of the solution and a solubility graph.	If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.	0neutral
saturated solution See solubility.	If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.	0neutral
solubility, saturated solutions and equilibrium;	If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.	0neutral
All units from proper names are capitalized (e.g., Hz, V, etc).	If a unit is named after a person it needs to be capitalized.	1entails
And when the words holy spirit are capitalized (as a person's name always is) the capitalized words Holy Spirit are read by many as a personal name.	If a unit is named after a person it needs to be capitalized.	0neutral
Capitalize a person's title when it precedes the name.	If a unit is named after a person it needs to be capitalized.	0neutral
Capitalize the first word of the name of the unit and enclose it in quotation marks.	If a unit is named after a person it needs to be capitalized.	0neutral
Capitalize when used before the person's name;	If a unit is named after a person it needs to be capitalized.	0neutral
Do capitalize the official names of the academic units.	If a unit is named after a person it needs to be capitalized.	0neutral
Do not capitalize the names of general persons, places, or things.	If a unit is named after a person it needs to be capitalized.	0neutral
If your search is for a place or person, capitalize the name.	If a unit is named after a person it needs to be capitalized.	0neutral
Note that although the newton and joule are named for persons, they are not capitalized when used as a unit of measurement.	If a unit is named after a person it needs to be capitalized.	0neutral
Since you have selected name , there is no need to capitalize, although capitalized names will return the most relevant results.	If a unit is named after a person it needs to be capitalized.	0neutral
The unit itself is capitalized if it is named after a person ( A Ampere, V Voltaire, etc.) but lowercase otherwise (m meter, s second).	If a unit is named after a person it needs to be capitalized.	1entails
When the units are some persons name (usually a famous, dead scientist) the first letter is generally not capitalized, but the abbreviation is.	If a unit is named after a person it needs to be capitalized.	0neutral
You do not need to capitalize the author's name.	If a unit is named after a person it needs to be capitalized.	0neutral
You do not need to capitalize your names.	If a unit is named after a person it needs to be capitalized.	0neutral
You don't need to capitalize proper names.	If a unit is named after a person it needs to be capitalized.	0neutral
Air masses are considered maritime if they originate over the ocean and continental if they develop over land.	If an air mass forms over an ocean it is called a maritime air mass.	1entails
Continental tropical and maritime tropical, and continental polar and maritime polar are the four types of air masses.	If an air mass forms over an ocean it is called a maritime air mass.	0neutral
Maritime Polar Air Mass ( mP ) Air mass that forms over extensive ocean areas of the middle to high latitudes.	If an air mass forms over an ocean it is called a maritime air mass.	1entails
Maritime air mass An air mass that originates over the ocean.	If an air mass forms over an ocean it is called a maritime air mass.	1entails
Maritime tropical air masses are much more common.	If an air mass forms over an ocean it is called a maritime air mass.	0neutral
This warm, dry air is known as a superior air mass and normally resides above a maritime tropical (warm and moist) air mass.	If an air mass forms over an ocean it is called a maritime air mass.	0neutral
Thus air mass types are polar and tropical with sub-classes of maritime or continental.	If an air mass forms over an ocean it is called a maritime air mass.	0neutral
Types of Air Masses Source Region Usual Characteristics of Source Accompanying Weather Maritime Equatorial ( mE ) Equatorial oceans Ascending air, very moisture High temperature and humidity, heavy rainfall;	If an air mass forms over an ocean it is called a maritime air mass.	0neutral
1) A moving object will continue moving in a straight line at constant speed, and a stationary object will remain at rest, unless acted upon by an unbalanced force.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
2.2 An object remains at rest or maintains a constant speed and direction of motion unless an unbalanced force acts on it.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
A body remains at rest, or moves in a straight line (at a constant velocity), unless acted upon by a net outside force.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
An object at rest remains at rest, an object in motion remains in motion when there is no force acting upon it.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
An object is brought to rest by a constant force.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	0neutral
An object remains at rest or continues to move in a straight line with a constant velocity if there is no unbalanced force acting on it.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
From Newton's first law of motion we know that an object at rest will stay at rest, and an object in motion (constant velocity) will stay in motion unless acted on by an external force.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
The tendency of objects at rest to remain at rest, and objects in constant motion to continue in constant motion, in the absence of applied forces.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
an object at rest will stay at rest and an object in motion will stay in motion with the same velocity unless acted on by an unbalanced force.	If no unbalanced force acts on an object the object remains at constant velocity or at rest.	1entails
A representation of the composition of a substance that uses the atomic symbols of the elements present, and uses subscripts to show the relative proportions of each atom.	If only one atom of a specific type is present a subscript is not used.	0neutral
By convention, no subscript is written when a molecule contains only one atom of an element.	If only one atom of a specific type is present a subscript is not used.	1entails
Note that subscripts are used to designate the number of atoms of each element that are present in the molecule.	If only one atom of a specific type is present a subscript is not used.	0neutral
Subscripts are used to denote the numbers of each type of atom.	If only one atom of a specific type is present a subscript is not used.	0neutral
The subscript shows the number of each type of atom.	If only one atom of a specific type is present a subscript is not used.	0neutral
6) Two members of the same species cannot produce fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
A species is a group of organisms that can mate and produce fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
A species is a population of living organisms that can mate and reproduce fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
According to this definition, one species is distinguished from another when, in nature, it is not possible for matings between individuals from each species to produce fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
And in fact, human controlled evolution may accelerate to the point where there will be at least two varieties of Homo sapiens, so distinct in their genomes that they will be actually different species and will no longer be able to mate and produce fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Any time two groups are so different that they can not reproduce to produce healthy fertile offspring, both concepts consider them to be separate species.	If two populations do not mate and produce fertile offspring, separate species result.	1entails
Canis lupus and Canis latrans are found on the same continent and are recognized as being two separate species even though they interbreed and produce fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Horses and donkeys are considered separate species, but if a horse and a donkey mate they can produce a surviving offspring called a mule.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Hybridization results when an introduced species mates with a native species producing hybrid offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
If two species mate and produce a viable offspring, these offspring will be sterile due to the misalignment of the chromosome number.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Individuals of different species may mate and even produce hybrid offspring, but without resulting gene flow (exchange of genetic materia l) between the two species.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Members of two different bird species mate and produce viable fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
One common definition of a species is a group of organisms which can interbreed and produce fertile offspring, and cannot mate with other species.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Reproductive isolation is a collection of mechanisms, behaviors, and physiological processes that prevent the members of two different species that cross or mate from producing offspring, or which ensure that any offspring that may be produced is not fertile.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Scientists classify living organisms into separate species based upon their physical form and the potential to interbreed and produce viable, fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Species A population of morphologically similar organisms that can reproduce sexually among themselves but cannot produce fertile offspring when mated with other organisms.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Species Populations of organisms that may interbreed and produce fertile offspring having similar structure, habits, and functions.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
The cave populations have retained the capacity to produce fertile offspring with surface fish and are considered to be the same species (Avise and Selander, 1972).	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
The concept of a species often refers to a population of physically similar individuals that can successfully mate between each other, but cannot produce fertile offspring with other organisms.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
The members of a unique species can mate with each other to produce fertile offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
There are also cases where two different species mate and produce offspring, thought their offspring is unable to produce offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Two fruit flies of different species mate but no offspring are produced c.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
Two species of frogs occasionally mate in the wild to produce hybrid offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
reproductive isolation The inability of two populations or species to produce fertile offspring or interbreed as a consequence of physi- ological or genetic incompatibility or environmental barriers.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
species A population of similar individuals that breed and produce fertile offspring under natural conditions.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
therefore, two sexually reproducing organisms of the same species can generally mate and produce fertile and viable offspring.	If two populations do not mate and produce fertile offspring, separate species result.	0neutral
A fully ionized carbon plasma allows electrons and carbon nuclei to reassemble themselves as diamond, in a three-dimensional lattice in which each atom is bound to four others by electron pairs -- a tetrahedral bond.	In a carbon triple bond, three pairs of electrons are shared.	0neutral
A triple bond consists of three shared electron pairs, forming one sigma and two pi bonds.	In a carbon triple bond, three pairs of electrons are shared.	1entails
As you might expect, triple bonds , those bonds in which three pairs of electrons are shared, are the strongest of these three types of covalent bonds.	In a carbon triple bond, three pairs of electrons are shared.	1entails
Because of the tetrahedral configuration of electron pairs around singly bonded carbon, many different three-dimensional structures can be achieved by carbon-carbon bonding.	In a carbon triple bond, three pairs of electrons are shared.	0neutral
By the same analogy, a triple bond is when three pairs of electrons are shared and is represented by three lines between two atoms.	In a carbon triple bond, three pairs of electrons are shared.	1entails
It is also possible for two atoms share more than one pair of electrons, sharing two pairs results in a double bond and sharing three pairs results in a triple bond.	In a carbon triple bond, three pairs of electrons are shared.	1entails
One pair is shared in a single bond, two pair in a double bond, and three elec tron pairs are shared in a triple bond.	In a carbon triple bond, three pairs of electrons are shared.	1entails
Triple bonds are known, wherein three pairs (six electrons total) are shared as in acetylene gas or nitrogen gas.	In a carbon triple bond, three pairs of electrons are shared.	1entails
Triple bonds occasionally form when three pairs of electrons are shared between two atoms.	In a carbon triple bond, three pairs of electrons are shared.	1entails
When three pairs of electrons are shared between two atoms in a molecule, they form a triple bond between the atoms.	In a carbon triple bond, three pairs of electrons are shared.	1entails
When we look closely at this table, we notice that three functional groups have double or triple carbon-carbon bonds, regions of high electron density.	In a carbon triple bond, three pairs of electrons are shared.	0neutral
atoms may share one pair of electrons (single bonds), two pairs (double bonds), or three pairs (triple bonds).	In a carbon triple bond, three pairs of electrons are shared.	1entails
% water Z - solute = 20% sugar: solvent = ?	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	0neutral
% water Z - solute = 30% sugar: solvent = ?	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	0neutral
For example, when sugar is dissolved in water, the sugar is the solute, the water is the solvent and the resultant mixture is the solution.	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	1entails
In a sugar water solution, water is solvent and sugar is solute.	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	1entails
Know the difference between a solvent, solute, and solution.	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	0neutral
Know the relationship between the solute and solvent in a solution.	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	0neutral
Know what the solvent and solutes are in solutions.	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	0neutral
The dissolved portion of the solution is called the solute (sugar) and the dissolving portion is the solvent (water).	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	1entails
The student knows the factors that influence the solubility of solutes in a solvent.	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	0neutral
Water Know the type(s) of bonding between water molecules in liquid water Understand the difference between a solute, a solvent and a solution.	In a glass of sweet tea the sugar is known as the solute and the water is known as the solvent.	0neutral
Because the Temple symbolizes the Earth, its footprint is square in shape.	In a pedigree chart the squares shape symbolizes males.	0neutral
Behind her to the left on the table are an old-time carpenter's ruler in the shape of a square root symbol, a pen and a piece of paper.	In a pedigree chart the squares shape symbolizes males.	0neutral
By the shape of its square-nosed head I could see that it was the male of the species.	In a pedigree chart the squares shape symbolizes males.	0neutral
For example, a plus sign, equals sign, parentheses, and square brackets are tactile images shaped like the print symbols.	In a pedigree chart the squares shape symbolizes males.	0neutral
In Figure 1.1 the square shape of the model symbolizes its knowability, the cloudy shape of the thing modeled symbolized its elusive nature.	In a pedigree chart the squares shape symbolizes males.	0neutral
In a room where statues of the saints are displayed, an altar is built with the symbol of a cross and a more ancient shape of a square, bisected with spokes of cempazuchitl (yellow marigold, symbol of death).	In a pedigree chart the squares shape symbolizes males.	0neutral
It is also possible to analyse the shape of the pulses (once they have passed through the ionosphere and the receiver they are no longer square in shape) and determine from the shape where the symbols are.	In a pedigree chart the squares shape symbolizes males.	0neutral
It is made up of square matrix symbols with an L-shaped peripheral Finder and adjacent timing marks.	In a pedigree chart the squares shape symbolizes males.	0neutral
Next, to change the size, shape or color of your symbols click on the square box in the Using Symbols category.	In a pedigree chart the squares shape symbolizes males.	0neutral
Notice that the pointer arrow is shaped like a paintbrush with a small square attached and the transfer symbol is hovering next to it.	In a pedigree chart the squares shape symbolizes males.	0neutral

Whatever the maximum solubility of a particular solute in a particular solvent, when it's reached, the solution is said to be saturated .

If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.

1entails

When a solution contains as much solute as the solvent can hold at a particular temperature, the solution is said to be a saturated solution at that temperature.

If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.

1entails

classify a solution as saturated, unsaturated or supersaturated, given the composition of the solution and a solubility graph.

If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.

0neutral

saturated solution See solubility.

If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.

0neutral

solubility, saturated solutions and equilibrium;

If a solution contains so much solute that its solubility limit is reached, the solution is said to be saturated.

0neutral

All units from proper names are capitalized (e.g., Hz, V, etc).

If a unit is named after a person it needs to be capitalized.

1entails

And when the words holy spirit are capitalized (as a person's name always is) the capitalized words Holy Spirit are read by many as a personal name.

If a unit is named after a person it needs to be capitalized.

0neutral

Capitalize a person's title when it precedes the name.

If a unit is named after a person it needs to be capitalized.

0neutral

Capitalize the first word of the name of the unit and enclose it in quotation marks.

If a unit is named after a person it needs to be capitalized.

0neutral

Capitalize when used before the person's name;

If a unit is named after a person it needs to be capitalized.

0neutral

Do capitalize the official names of the academic units.

If a unit is named after a person it needs to be capitalized.

0neutral

Do not capitalize the names of general persons, places, or things.

If a unit is named after a person it needs to be capitalized.

0neutral

If your search is for a place or person, capitalize the name.

If a unit is named after a person it needs to be capitalized.

0neutral

Note that although the newton and joule are named for persons, they are not capitalized when used as a unit of measurement.

If a unit is named after a person it needs to be capitalized.

0neutral

Since you have selected name , there is no need to capitalize, although capitalized names will return the most relevant results.

If a unit is named after a person it needs to be capitalized.

0neutral

The unit itself is capitalized if it is named after a person ( A Ampere, V Voltaire, etc.) but lowercase otherwise (m meter, s second).

If a unit is named after a person it needs to be capitalized.

1entails

When the units are some persons name (usually a famous, dead scientist) the first letter is generally not capitalized, but the abbreviation is.

If a unit is named after a person it needs to be capitalized.

0neutral

You do not need to capitalize the author's name.

If a unit is named after a person it needs to be capitalized.

0neutral

You do not need to capitalize your names.

If a unit is named after a person it needs to be capitalized.

0neutral

You don't need to capitalize proper names.

If a unit is named after a person it needs to be capitalized.

0neutral

Air masses are considered maritime if they originate over the ocean and continental if they develop over land.

If an air mass forms over an ocean it is called a maritime air mass.

1entails

Continental tropical and maritime tropical, and continental polar and maritime polar are the four types of air masses.

If an air mass forms over an ocean it is called a maritime air mass.

0neutral

Maritime Polar Air Mass ( mP ) Air mass that forms over extensive ocean areas of the middle to high latitudes.

If an air mass forms over an ocean it is called a maritime air mass.

1entails

Maritime air mass An air mass that originates over the ocean.

If an air mass forms over an ocean it is called a maritime air mass.

1entails

Maritime tropical air masses are much more common.

If an air mass forms over an ocean it is called a maritime air mass.

0neutral

This warm, dry air is known as a superior air mass and normally resides above a maritime tropical (warm and moist) air mass.

If an air mass forms over an ocean it is called a maritime air mass.

0neutral

Thus air mass types are polar and tropical with sub-classes of maritime or continental.

If an air mass forms over an ocean it is called a maritime air mass.

0neutral

Types of Air Masses Source Region Usual Characteristics of Source Accompanying Weather Maritime Equatorial ( mE ) Equatorial oceans Ascending air, very moisture High temperature and humidity, heavy rainfall;

If an air mass forms over an ocean it is called a maritime air mass.

0neutral

1) A moving object will continue moving in a straight line at constant speed, and a stationary object will remain at rest, unless acted upon by an unbalanced force.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

2.2 An object remains at rest or maintains a constant speed and direction of motion unless an unbalanced force acts on it.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

A body remains at rest, or moves in a straight line (at a constant velocity), unless acted upon by a net outside force.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

An object at rest remains at rest, an object in motion remains in motion when there is no force acting upon it.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

An object is brought to rest by a constant force.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

0neutral

An object remains at rest or continues to move in a straight line with a constant velocity if there is no unbalanced force acting on it.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

From Newton's first law of motion we know that an object at rest will stay at rest, and an object in motion (constant velocity) will stay in motion unless acted on by an external force.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

The tendency of objects at rest to remain at rest, and objects in constant motion to continue in constant motion, in the absence of applied forces.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

an object at rest will stay at rest and an object in motion will stay in motion with the same velocity unless acted on by an unbalanced force.

If no unbalanced force acts on an object the object remains at constant velocity or at rest.

1entails

A representation of the composition of a substance that uses the atomic symbols of the elements present, and uses subscripts to show the relative proportions of each atom.

If only one atom of a specific type is present a subscript is not used.

0neutral

By convention, no subscript is written when a molecule contains only one atom of an element.

If only one atom of a specific type is present a subscript is not used.

1entails

Note that subscripts are used to designate the number of atoms of each element that are present in the molecule.

If only one atom of a specific type is present a subscript is not used.

0neutral

Subscripts are used to denote the numbers of each type of atom.

If only one atom of a specific type is present a subscript is not used.

0neutral

The subscript shows the number of each type of atom.

If only one atom of a specific type is present a subscript is not used.

0neutral

6) Two members of the same species cannot produce fertile offspring.