DefenceLab/scitail · Datasets at Hugging Face

premise stringlengths 1 69.2k	hypothesis stringlengths 21 234	label class label 2 classes
Earliest precision compound machines.	Scissors are compound machines.	0neutral
House is identifying simple machines and the Tool Shed is identifying the simple machines that make up compound machines.	Scissors are compound machines.	0neutral
It has SOG's compound leverage gears on the scissors.	Scissors are compound machines.	0neutral
Leaves compound, or simple (rare);	Scissors are compound machines.	0neutral
MCH.03 Identify the simple machines in given compound machines.	Scissors are compound machines.	0neutral
MCH.17 Take apart a compound machine to determine the simple machines within.	Scissors are compound machines.	0neutral
One approach is to attach simple machines in series to obtain compound machines.	Scissors are compound machines.	0neutral
See how simple machines can be linked together to make a compound machine.	Scissors are compound machines.	0neutral
Share your ideas for compound machines--two or more simple machines working together--in the compound machine gallery.	Scissors are compound machines.	0neutral
Simple and compound interest are studied.	Scissors are compound machines.	0neutral
Simple and compound tenses.	Scissors are compound machines.	0neutral
Simple machines can be combined together to form compound machines.	Scissors are compound machines.	0neutral
Students combine simple machines to build a unique compound machine of their own design.	Scissors are compound machines.	0neutral
Students will observe simple or compound machines located at home or at school.	Scissors are compound machines.	0neutral
The leaves may be simple or compound.	Scissors are compound machines.	0neutral
The purpose of this activity is to demonstrate the necessity for machines, both simple and compound, in everyday life.	Scissors are compound machines.	0neutral
The students will review simple machines and recognize that they are the components of compound machines.	Scissors are compound machines.	0neutral
This chapter reviews simple and compound machines.	Scissors are compound machines.	0neutral
Thus it is in a simple substance, and not in a compound or in a machine, that perception must be sought for.	Scissors are compound machines.	0neutral
and simple compound and complex sentences.	Scissors are compound machines.	0neutral
it is compound or simple, the compound cannot exist without the simple.	Scissors are compound machines.	0neutral
simple, compound .	Scissors are compound machines.	0neutral
simple, compound and complex sentences;	Scissors are compound machines.	0neutral
simple, compound, complex, and compound-complex.	Scissors are compound machines.	0neutral
simple, or compound, or simple and compound;	Scissors are compound machines.	0neutral
300 1 3 x 10 2 Trailing zeros are significant only if the decimal point is specified.	Zeroes that show only where the decimal point falls are not significant.	0neutral
Actually, it is finite, it only appears to be zero because 'matlab' is printing only 4 significant figures to the left of the decimal point.	Zeroes that show only where the decimal point falls are not significant.	0neutral
C) A zero after the decimal point is significant when bounded by significant figures to the left, f or example the number 1002.0 has 5 significant figures.	Zeroes that show only where the decimal point falls are not significant.	0neutral
Factor loadings have been rounded to a single significant figure, and the zero and decimal point for the values have been omitted.	Zeroes that show only where the decimal point falls are not significant.	0neutral
Falling on couches is a significant point.	Zeroes that show only where the decimal point falls are not significant.	0neutral
If there is no decimal point, specify a mask where the last significant whole number is not zero-suppressed.	Zeroes that show only where the decimal point falls are not significant.	0neutral
If, however, the zeroes only locate the the decimal point and are not significant, the implied uncertainty is 100 and we know the measurement lies between 45,500 and 45,700.	Zeroes that show only where the decimal point falls are not significant.	1entails
The types show no significant zero-point or scale error;	Zeroes that show only where the decimal point falls are not significant.	0neutral
This value is ambiguous in that it is not known whether the last two zeros are being used to locate the decimal point or they represent significant figures in the measurement.	Zeroes that show only where the decimal point falls are not significant.	0neutral
Trailing zeros to the right of the decimal point are always significant .	Zeroes that show only where the decimal point falls are not significant.	0neutral
Zeroes at the end of a number are significant if they are at the right of the decimal.	Zeroes that show only where the decimal point falls are not significant.	0neutral
Zeros between two other significant digits are always significant One or more additional zeros to the right of both the decimal place and another significant digit are significant.	Zeroes that show only where the decimal point falls are not significant.	0neutral
c the presence of 0.1 in this error criterion causes c leading zeroes to the right of the decimal point to be c counted as significant digits.	Zeroes that show only where the decimal point falls are not significant.	0neutral
that is, the moving of the decimal point in a number one way or the other, possibly with the addition of significant zeros.	Zeroes that show only where the decimal point falls are not significant.	0neutral
3) BirdLife International is responsible for compiling the bird section of the internationally recognised IUCN Red List of Threatened Species, the official list of plants and animals at risk of extinction.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
About one-quarter of all bird species are extinct as a result of human actions.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
As a result of their activity, 35 species of birds became extinct.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
As threats to bird populations grow and extinctions continue, historical specimens are valuable in documenting the impacts of human activities and causes of decline for threatened species.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
Assuming these birds were true species, 9 animal extinctions have occurred in Martinique, and 9 animal extinction in Guadeloupe.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
Bird Collections and Habitat Groups" Notes on some of the bird species of Nebraska which are extinct or nearing extinction.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
Fauna in danger of extinction comprise 18 species of animals, 12 species of birds, 12 species of reptiles and one species of amphibian.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
However, certain groups of animals (most notably birds and fish) appear to be as broadly affected as plants by alien species.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
Human actions have caused the extinction of hundreds of species of birds, and some 1,200 species are threatened with extinction today.	Around 1200 species of birds are currently at risk of extinction due to human activity.	1entails
Human activity threatens about 1,200 bird species with extinction, though efforts are underway to protect them.	Around 1200 species of birds are currently at risk of extinction due to human activity.	1entails
Humans may potentially transmit Avian Influenza to animal and bird species, although the risk is moderate to low.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
It is a habitat for many species of animals and birds which are now extinct in Egypt.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
Nearly 250 species of amphibians, birds, and mammals have become extinct due to the result of human activity in the past 400 years.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
Some turtles, reptiles and birds are on the endangered species list of animals threatened with extinction.	Around 1200 species of birds are currently at risk of extinction due to human activity.	0neutral
Today, some 1,200 species of birds are threatened with extinction by human actions.	Around 1200 species of birds are currently at risk of extinction due to human activity.	1entails
Any time that divers breathe compressed air, their bodies accumulate nitrogen.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
Divers counteract this straitjacket effect by releasing compressed air into the suit as they descend.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
Squeeze or hypobarotrauma is caused by a negative pressure difference across the wall of a non-collapsible air space (middle ear, sinuses, compressed lungs, hollow teeth etc.).	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
Subsiding air is compressed by the increasing pressure of the surrounding air as it descends, so the air warms up as it subsides.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
The Aqua-Lung used cylinders of compressed air and was equipped with a demand regulator, which adjusted the air pressure automatically, and supplying ai r as the diver needed it.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
The compressed air is heated and expanded to increase pressure.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
The compressed gases create a force that causes the ambient air pressure to increase;	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
The two-stage regulator allows compressed air to be inhaled at the ambient pressure, so the scuba diver can maintain normal lung volume at all depths.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
This allows compressed lung tissue to re-expand so less air is trapped and high negative pressures, which cause the airways to collapse, can be reduced.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
When the muscle moves forward (towards the animal's head), it causes the lungs to compress and force air out (exhale), thus ridding the body of used air.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
When you descend under water while breathing compressed air, the increased pressure of the air you're breathing causes more nitrogen to dissolve in the blood circulating through your lungs than exists in the blood when you are above water.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
When you press on the latex, the water pressure inside the cylinder is increased, the air bubble in the diver is compressed, and the resulting loss of buoyant displacement causes the diver to fall in the cylinder.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
With increasing depth, pressure compresses the chest, giving divers the false sensation that their lungs are full.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	0neutral
the increasing water pressure compresses the air in the lungs.	As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.	1entails
As altitude increases, temperature decreases.	As altitude rises, the temperature increases in the thermosphere.	0neutral
As altitude increases, temperature in the troposphere decreases.	As altitude rises, the temperature increases in the thermosphere.	0neutral
Characterized by a decrease in temperature with increasing altitude.	As altitude rises, the temperature increases in the thermosphere.	0neutral
Explain why the temperature increases as the altitude increases in the stratosphere.	As altitude rises, the temperature increases in the thermosphere.	0neutral
In the mesosphere temperature decreases as the altitude increases.	As altitude rises, the temperature increases in the thermosphere.	0neutral
TAS increases as temperature rise and decreases as temperatures fall.	As altitude rises, the temperature increases in the thermosphere.	0neutral
Temperature and Altitude.	As altitude rises, the temperature increases in the thermosphere.	0neutral
Temperature decreases with increasing altitude.	As altitude rises, the temperature increases in the thermosphere.	0neutral
Temperature normally decreases with increasing altitude.	As altitude rises, the temperature increases in the thermosphere.	0neutral
Temperatures decrease with increasing altitude.	As altitude rises, the temperature increases in the thermosphere.	0neutral
Temperatures generally decrease with increasing altitude.	As altitude rises, the temperature increases in the thermosphere.	0neutral
The region above 90 km is the Earth's thermosphere where the absorption of extreme ultraviolet radiation from the Sun results in a very rapid increase in temperature with altitude.	As altitude rises, the temperature increases in the thermosphere.	1entails
The temperature in the thermosphere generally increases with altitude up to 1000-1500 K.	As altitude rises, the temperature increases in the thermosphere.	1entails
This defines the break between the mesosphere and the thermosphere, where temperature again increases with increasing altitude.	As altitude rises, the temperature increases in the thermosphere.	1entails
With increasing altitude the temperatures get colder;	As altitude rises, the temperature increases in the thermosphere.	0neutral
With the increasing altitude, temperatures may be colder.	As altitude rises, the temperature increases in the thermosphere.	0neutral
no, temperature never increases with altitude.	As altitude rises, the temperature increases in the thermosphere.	0neutral
temperatures are stable or rise slightly with altitude;	As altitude rises, the temperature increases in the thermosphere.	0neutral
As databases become larger and more complex, this solution becomes increasingly less effective.	As ph increases, a solution becomes more basic.	0neutral
As pH goes up the solution becomes more base.	As ph increases, a solution becomes more basic.	1entails
As pH rises in a solution, the conditions become more and more acidic.	As ph increases, a solution becomes more basic.	0neutral
As the blood pH decreases (becomes more acidic) there is a corresponding increase in ventilation.	As ph increases, a solution becomes more basic.	0neutral
At pH values below 4 or above 11 the rate of inactivation is very rapid while at pH's of between 4.5 and 10.5 the rate, although much slower, increases as the solution becomes more alkaline.	As ph increases, a solution becomes more basic.	0neutral
For example, ammonia becomes more toxic as pH increases.	As ph increases, a solution becomes more basic.	0neutral
In contrast, basic blend adjuvants increase spray solution pH, prevents acid hydrolysis, but more importantly, greatly increases the solubility of Accent resulting in greater weed control.	As ph increases, a solution becomes more basic.	0neutral
The acidity or basic nature of a solution is expressed as the pH.	As ph increases, a solution becomes more basic.	0neutral
The ammonia (NH3) buffers the solution at a basic pH;	As ph increases, a solution becomes more basic.	0neutral
The higher the pH, the more basic of alkaline the solution.	As ph increases, a solution becomes more basic.	1entails
Therefore, this reaction occurs at lower pH (more acidic to weakly basic solutions).	As ph increases, a solution becomes more basic.	0neutral
These pigments usually are red in acid solution and may become purplish to blue if the pH of the cell sap is increased.	As ph increases, a solution becomes more basic.	0neutral
lower pH levels indicate increasing acidity, while pH levels higher than 7 indicate increasingly basic solutions.	As ph increases, a solution becomes more basic.	1entails
on the other hand, a solution to a more and more complex problem was becoming increasingly elusive.	As ph increases, a solution becomes more basic.	0neutral

Earliest precision compound machines.

Scissors are compound machines.

0neutral

House is identifying simple machines and the Tool Shed is identifying the simple machines that make up compound machines.

Scissors are compound machines.

0neutral

It has SOG's compound leverage gears on the scissors.

Scissors are compound machines.

0neutral

Leaves compound, or simple (rare);

Scissors are compound machines.

0neutral

MCH.03 Identify the simple machines in given compound machines.

Scissors are compound machines.

0neutral

MCH.17 Take apart a compound machine to determine the simple machines within.

Scissors are compound machines.

0neutral

One approach is to attach simple machines in series to obtain compound machines.

Scissors are compound machines.

0neutral

See how simple machines can be linked together to make a compound machine.

Scissors are compound machines.

0neutral

Share your ideas for compound machines--two or more simple machines working together--in the compound machine gallery.

Scissors are compound machines.

0neutral

Simple and compound interest are studied.

Scissors are compound machines.

0neutral

Simple and compound tenses.

Scissors are compound machines.

0neutral

Simple machines can be combined together to form compound machines.

Scissors are compound machines.

0neutral

Students combine simple machines to build a unique compound machine of their own design.

Scissors are compound machines.

0neutral

Students will observe simple or compound machines located at home or at school.

Scissors are compound machines.

0neutral

The leaves may be simple or compound.

Scissors are compound machines.

0neutral

The purpose of this activity is to demonstrate the necessity for machines, both simple and compound, in everyday life.

Scissors are compound machines.

0neutral

The students will review simple machines and recognize that they are the components of compound machines.

Scissors are compound machines.

0neutral

This chapter reviews simple and compound machines.

Scissors are compound machines.

0neutral

Thus it is in a simple substance, and not in a compound or in a machine, that perception must be sought for.

Scissors are compound machines.

0neutral

and simple compound and complex sentences.

Scissors are compound machines.

0neutral

it is compound or simple, the compound cannot exist without the simple.

Scissors are compound machines.

0neutral

simple, compound .

Scissors are compound machines.

0neutral

simple, compound and complex sentences;

Scissors are compound machines.

0neutral

simple, compound, complex, and compound-complex.

Scissors are compound machines.

0neutral

simple, or compound, or simple and compound;

Scissors are compound machines.

0neutral

300 1 3 x 10 2 Trailing zeros are significant only if the decimal point is specified.

Zeroes that show only where the decimal point falls are not significant.

0neutral

Actually, it is finite, it only appears to be zero because 'matlab' is printing only 4 significant figures to the left of the decimal point.

Zeroes that show only where the decimal point falls are not significant.

0neutral

C) A zero after the decimal point is significant when bounded by significant figures to the left, f or example the number 1002.0 has 5 significant figures.

Zeroes that show only where the decimal point falls are not significant.

0neutral

Factor loadings have been rounded to a single significant figure, and the zero and decimal point for the values have been omitted.

Zeroes that show only where the decimal point falls are not significant.

0neutral

Falling on couches is a significant point.

Zeroes that show only where the decimal point falls are not significant.

0neutral

If there is no decimal point, specify a mask where the last significant whole number is not zero-suppressed.

Zeroes that show only where the decimal point falls are not significant.

0neutral

If, however, the zeroes only locate the the decimal point and are not significant, the implied uncertainty is 100 and we know the measurement lies between 45,500 and 45,700.

Zeroes that show only where the decimal point falls are not significant.

1entails

The types show no significant zero-point or scale error;

Zeroes that show only where the decimal point falls are not significant.

0neutral

This value is ambiguous in that it is not known whether the last two zeros are being used to locate the decimal point or they represent significant figures in the measurement.

Zeroes that show only where the decimal point falls are not significant.

0neutral

Trailing zeros to the right of the decimal point are always significant .

Zeroes that show only where the decimal point falls are not significant.

0neutral

Zeroes at the end of a number are significant if they are at the right of the decimal.

Zeroes that show only where the decimal point falls are not significant.

0neutral

Zeros between two other significant digits are always significant One or more additional zeros to the right of both the decimal place and another significant digit are significant.

Zeroes that show only where the decimal point falls are not significant.

0neutral

c the presence of 0.1 in this error criterion causes c leading zeroes to the right of the decimal point to be c counted as significant digits.

Zeroes that show only where the decimal point falls are not significant.

0neutral

that is, the moving of the decimal point in a number one way or the other, possibly with the addition of significant zeros.

Zeroes that show only where the decimal point falls are not significant.

0neutral

3) BirdLife International is responsible for compiling the bird section of the internationally recognised IUCN Red List of Threatened Species, the official list of plants and animals at risk of extinction.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

About one-quarter of all bird species are extinct as a result of human actions.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

As a result of their activity, 35 species of birds became extinct.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

As threats to bird populations grow and extinctions continue, historical specimens are valuable in documenting the impacts of human activities and causes of decline for threatened species.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

Assuming these birds were true species, 9 animal extinctions have occurred in Martinique, and 9 animal extinction in Guadeloupe.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

Bird Collections and Habitat Groups" Notes on some of the bird species of Nebraska which are extinct or nearing extinction.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

Fauna in danger of extinction comprise 18 species of animals, 12 species of birds, 12 species of reptiles and one species of amphibian.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

However, certain groups of animals (most notably birds and fish) appear to be as broadly affected as plants by alien species.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

Human actions have caused the extinction of hundreds of species of birds, and some 1,200 species are threatened with extinction today.

Around 1200 species of birds are currently at risk of extinction due to human activity.

1entails

Human activity threatens about 1,200 bird species with extinction, though efforts are underway to protect them.

Around 1200 species of birds are currently at risk of extinction due to human activity.

1entails

Humans may potentially transmit Avian Influenza to animal and bird species, although the risk is moderate to low.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

It is a habitat for many species of animals and birds which are now extinct in Egypt.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

Nearly 250 species of amphibians, birds, and mammals have become extinct due to the result of human activity in the past 400 years.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

Some turtles, reptiles and birds are on the endangered species list of animals threatened with extinction.

Around 1200 species of birds are currently at risk of extinction due to human activity.

0neutral

Today, some 1,200 species of birds are threatened with extinction by human actions.

Around 1200 species of birds are currently at risk of extinction due to human activity.

1entails

Any time that divers breathe compressed air, their bodies accumulate nitrogen.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

Divers counteract this straitjacket effect by releasing compressed air into the suit as they descend.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

Squeeze or hypobarotrauma is caused by a negative pressure difference across the wall of a non-collapsible air space (middle ear, sinuses, compressed lungs, hollow teeth etc.).

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

Subsiding air is compressed by the increasing pressure of the surrounding air as it descends, so the air warms up as it subsides.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

The Aqua-Lung used cylinders of compressed air and was equipped with a demand regulator, which adjusted the air pressure automatically, and supplying ai r as the diver needed it.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

The compressed air is heated and expanded to increase pressure.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

The compressed gases create a force that causes the ambient air pressure to increase;

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

The two-stage regulator allows compressed air to be inhaled at the ambient pressure, so the scuba diver can maintain normal lung volume at all depths.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

This allows compressed lung tissue to re-expand so less air is trapped and high negative pressures, which cause the airways to collapse, can be reduced.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

When the muscle moves forward (towards the animal's head), it causes the lungs to compress and force air out (exhale), thus ridding the body of used air.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

When you descend under water while breathing compressed air, the increased pressure of the air you're breathing causes more nitrogen to dissolve in the blood circulating through your lungs than exists in the blood when you are above water.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

When you press on the latex, the water pressure inside the cylinder is increased, the air bubble in the diver is compressed, and the resulting loss of buoyant displacement causes the diver to fall in the cylinder.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

With increasing depth, pressure compresses the chest, giving divers the false sensation that their lungs are full.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

0neutral

the increasing water pressure compresses the air in the lungs.

As a diver descends, the increase in pressure causes the body’s air pockets in the ears and lungs to compress.

1entails

As altitude increases, temperature decreases.

As altitude rises, the temperature increases in the thermosphere.

0neutral

As altitude increases, temperature in the troposphere decreases.

As altitude rises, the temperature increases in the thermosphere.

0neutral

Characterized by a decrease in temperature with increasing altitude.

As altitude rises, the temperature increases in the thermosphere.

0neutral

Explain why the temperature increases as the altitude increases in the stratosphere.

As altitude rises, the temperature increases in the thermosphere.

0neutral

In the mesosphere temperature decreases as the altitude increases.

As altitude rises, the temperature increases in the thermosphere.

0neutral

TAS increases as temperature rise and decreases as temperatures fall.

As altitude rises, the temperature increases in the thermosphere.

0neutral

Temperature and Altitude.

As altitude rises, the temperature increases in the thermosphere.

0neutral

Temperature decreases with increasing altitude.

As altitude rises, the temperature increases in the thermosphere.

0neutral

Temperature normally decreases with increasing altitude.

As altitude rises, the temperature increases in the thermosphere.

0neutral

Temperatures decrease with increasing altitude.

As altitude rises, the temperature increases in the thermosphere.

0neutral

Temperatures generally decrease with increasing altitude.

As altitude rises, the temperature increases in the thermosphere.

0neutral

The region above 90 km is the Earth's thermosphere where the absorption of extreme ultraviolet radiation from the Sun results in a very rapid increase in temperature with altitude.

As altitude rises, the temperature increases in the thermosphere.

1entails

The temperature in the thermosphere generally increases with altitude up to 1000-1500 K.

As altitude rises, the temperature increases in the thermosphere.

1entails

This defines the break between the mesosphere and the thermosphere, where temperature again increases with increasing altitude.

As altitude rises, the temperature increases in the thermosphere.

1entails

With increasing altitude the temperatures get colder;

As altitude rises, the temperature increases in the thermosphere.

0neutral

With the increasing altitude, temperatures may be colder.

As altitude rises, the temperature increases in the thermosphere.

0neutral

no, temperature never increases with altitude.

As altitude rises, the temperature increases in the thermosphere.

0neutral

temperatures are stable or rise slightly with altitude;

As altitude rises, the temperature increases in the thermosphere.

0neutral

As databases become larger and more complex, this solution becomes increasingly less effective.

As ph increases, a solution becomes more basic.

0neutral

As pH goes up the solution becomes more base.

As ph increases, a solution becomes more basic.

1entails

As pH rises in a solution, the conditions become more and more acidic.

As ph increases, a solution becomes more basic.

0neutral

As the blood pH decreases (becomes more acidic) there is a corresponding increase in ventilation.

As ph increases, a solution becomes more basic.

0neutral

At pH values below 4 or above 11 the rate of inactivation is very rapid while at pH's of between 4.5 and 10.5 the rate, although much slower, increases as the solution becomes more alkaline.

As ph increases, a solution becomes more basic.

0neutral

For example, ammonia becomes more toxic as pH increases.

As ph increases, a solution becomes more basic.

0neutral

In contrast, basic blend adjuvants increase spray solution pH, prevents acid hydrolysis, but more importantly, greatly increases the solubility of Accent resulting in greater weed control.

As ph increases, a solution becomes more basic.

0neutral

The acidity or basic nature of a solution is expressed as the pH.

As ph increases, a solution becomes more basic.

0neutral

The ammonia (NH3) buffers the solution at a basic pH;

As ph increases, a solution becomes more basic.

0neutral

The higher the pH, the more basic of alkaline the solution.

As ph increases, a solution becomes more basic.

1entails

Therefore, this reaction occurs at lower pH (more acidic to weakly basic solutions).

As ph increases, a solution becomes more basic.

0neutral

These pigments usually are red in acid solution and may become purplish to blue if the pH of the cell sap is increased.

As ph increases, a solution becomes more basic.

0neutral

lower pH levels indicate increasing acidity, while pH levels higher than 7 indicate increasingly basic solutions.

As ph increases, a solution becomes more basic.

1entails

on the other hand, a solution to a more and more complex problem was becoming increasingly elusive.

As ph increases, a solution becomes more basic.

0neutral