DefenceLab/scitail · Datasets at Hugging Face

premise stringlengths 1 69.2k	hypothesis stringlengths 21 234	label class label 2 classes
However, state laws may apply to calls placed within the same state.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
In a concurrent model, if both sides have laws which apply and if they seem to say the same thing, then something called the conflict-of-law rule obtains.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
In studying this section the student will learn something of the historical foundations of science as well as a working definition of science and some rules for applying the scientific method.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
In the physical sciences in particular, the analysis applied is often called the scientific method.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
It is of little importance whether we call medicine, engineering or ethics an applied science, a normative science, or a scientific art.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
Laws establishing work conditions are not always applied uniformly to foreign workers.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
Murphy's Law will always apply.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
SWIFT< Science applies to the same laws of Darwinian evolution.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
Scientific Basis of air Conditioning, Applied Science Publishers, London, 1977	In science, something that always applies under the same conditions is called a scientific law.	0neutral
Scientific methods applied to animal science.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
The Law of Inevitable Pertinent Conditions- Everything will happen sometime, and something is always happening.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
The laws of physics always apply.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
The same applies for scientific disciplines.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
The same applies to the scientific payload.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
The same law would apply if the gabbai was at fault for calling the wrong person to the Torah.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
There is an unwritten law that science is for the scientific.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
Thus technology was considered applied science which helped the scientific process by manipulating the natural conditions of the scientific object.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
Under present conditions, all activity, to be successful, has to be directed somewhere and somehow by the scientific expert -- it is a ease of applied science.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
We cannot apply the Laws of Science to the Magic World, nor the Laws of Magic to the Scientific World.	In science, something that always applies under the same conditions is called a scientific law.	0neutral
Amelioration from motion and walking, from change of position.	In science, motion is defined as a change in position.	0neutral
Basically, objects that are in motion change their position.	In science, motion is defined as a change in position.	1entails
Here's where you will define the motion and position of the camera.	In science, motion is defined as a change in position.	0neutral
If the test masses are subjected to a gravitational wave, their positions will change in a small, but well-defined way; it is this resulting motion that LIGO is designed to detect.	In science, motion is defined as a change in position.	0neutral
In conclusion Motion is change in position.	In science, motion is defined as a change in position.	1entails
In science changes might occur in properties of materials, positions of objects, motion, and form and function of systems.	In science, motion is defined as a change in position.	0neutral
Motion is a change in position (in progress).	In science, motion is defined as a change in position.	1entails
Motion is change in position.	In science, motion is defined as a change in position.	1entails
Motion is defined as the change of position over time, but both of these quantities, position and time, are not defined within the system.	In science, motion is defined as a change in position.	1entails
Motion is position change through time.	In science, motion is defined as a change in position.	1entails
Motion is simply change of position in space.	In science, motion is defined as a change in position.	1entails
Motion is the action or process of changing position.	In science, motion is defined as a change in position.	1entails
Nature, in fact is defined as a principle of motion and change.	In science, motion is defined as a change in position.	0neutral
Never mind that motion has always been defined as a change in position in a coordinate system.	In science, motion is defined as a change in position.	1entails
Relate these changing positions to Earth-Sun motions.	In science, motion is defined as a change in position.	0neutral
Science is a subject in constant motion and constant change.	In science, motion is defined as a change in position.	0neutral
Section 2.1 Defining Motion Any object that is changing its position is said to be in motion .	In science, motion is defined as a change in position.	1entails
We define ON detectors as motion detectors that respond to positive contrast changes (that is from dark to bright), OFF detectors respond to negative contrast changes.	In science, motion is defined as a change in position.	0neutral
1.5.6-1 Define frequency, waves, wavelength, resonance, and vibration and describe their relationship to sound energy.	In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.	0neutral
A vibrating drum in a disco transfers energy to the room as sound.	In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.	0neutral
Frequency is how fast an object vibrates and sound vibrates in waves.	In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.	0neutral
Sound energy is a form of mechanical energy and it is transferred through matter as waves of alternating compression and rarefactions.	In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.	1entails
Sound is a type of energy that requires waves traveling through matter.	In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.	1entails
Sound waves are vibrations transmitted through matter.	In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.	1entails
Sound waves lose energy as they travel.	In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.	0neutral
Arterial blood carries oxygen from inhaled air to all of the cells of the body, and venous blood carries carbon dioxide, a waste product of metabolism by cells, to the lungs to be exhaled.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
Blood (Represents 8% of body weight) Cell-containing fluid that carries nutrients, electrolytes, hormones, antibodies, heat, and oxygen to body tissues and carrying away waste and carbon dioxide.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
Capillaries run throughout the body, passing oxygen, nutrients, and other substance through their walls to the tissue beds and taking carbon dioxide and other waste products from the tissue beds back into the blood stream.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
Cellular respiration uses oxygen and produces carbon dioxide as a waste product.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
During exercise, the cells burn oxygen faster to produce more energy for the body, which creates more carbon dioxide as a waste product.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
In addition to carrying oxygen and nutrients to your body's tissues, it also takes carbon dioxide and waste products away from the tissues.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
One of the most important functions of blood is the transport of oxygen to the body tissues and for carrying away wastes such as carbon dioxide.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
Oxygen is consumed to provide energy to cells, leaving carbon dioxide as a waste product, which the red blood cells carry away from the tissues and back to the lungs.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
Respiration refers to how the cells of the body use oxygen to create energy and how they exhale carbon dioxide that is a waste product of this process.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
The arteries bring oxygen and other nutrients to the cells of the body, and the veins take away the blood after the cells have taken in the oxygen and nutrients and given up their waste products, such as carbon dioxide.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
The cells use the oxygen, giving off carbon dioxide as a waste product.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
The lungs bring air in and out, taking in oxygen and getting rid of carbon dioxide, a waste product of the body.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
The primary task of blood is to carry fuel ( nutrients and oxygen ) to various components of the body, then to carry away waste products ( carbon dioxide and dead cells ).	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
They work by taking oxygen from the air we breathe in and then exchanging it for carbon dioxide, a deadly waste product made by the cells of the body.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
This is where the oxygen and nutrients from the CAPILLARIES go out into the tissues which need them, and in return, carbon dioxide (CO2) and waste products are put in the blood to be carried back to the lung and be exhaled or removed from the body in another way.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
oxygen and nutrients are supplied to the cells for their metabolism and exchanged for carbon dioxide and waste products In this case, oxygen and nutrients exit the systemic capillaries to be used by the cells in their metabolic processes, and carbon dioxide and waste products will enter the blood.	In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.	1entails
According to the information listed at the US Environmental Protection Agency's website , incandescent bulbs only convert about 10% of the electrical energy input into visible light energy and about 90% is converted to infrared radiation (or thermal radiation).	In the case of a light bulb, electricity is converted to light and thermal energy.	1entails
Applications of waves and vibrations includes experiments involving mechanical, fluid, light, electrical, and thermal energy converters.	In the case of a light bulb, electricity is converted to light and thermal energy.	0neutral
For example, electrical energy is transferred to the surroundings by the lamp as light energy and thermal energy.	In the case of a light bulb, electricity is converted to light and thermal energy.	1entails
For instance, in a light bulb, the electric potential energy of the charge is transformed into light energy ( a useful form) and thermal energy (a non-useful form).	In the case of a light bulb, electricity is converted to light and thermal energy.	1entails
In a light bulb, electrical energy is transformed into useful light energy (and some non-useful thermal energy).	In the case of a light bulb, electricity is converted to light and thermal energy.	1entails
A muscular organ in the flatworm called the pharynx takes in bits of solid food.	In the human body, the intersection where the paths for air and food cross is called pharynx.	0neutral
Air and food pass through the pharynx on the way to the trachea (windpipe) or the esophagus.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
Air and food pass through the pharynx on the way to the windpipe (trachea) or the esophagus.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
Both food and air pass through the pharynx.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
Food passes from the pharynx to the esophagus, and air passes from the pharynx to the trachea.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
It's like a highway junction where the routes that take air to the lungs and food to the stomach intersect in a common chamber, the pharynx.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
Pharynx The upper part of the pharynx lets air pass through, while the lower part allows food and liquids to pass.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
The Pharynx The pharynx is an intersection for both the digestive and respiratory systems.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
The Throat Back The pharynx is a channel for air and for food.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
The body also uses saliva to lubricate food as it passes through the mouth, pharynx, and esophagus.	In the human body, the intersection where the paths for air and food cross is called pharynx.	0neutral
The connection of the middle ear with the pharynx adjusts the pressure in the middle ear to changing air pressures outside the body.	In the human body, the intersection where the paths for air and food cross is called pharynx.	0neutral
The food would go in an intestine that is like the pharynx in the human body.	In the human body, the intersection where the paths for air and food cross is called pharynx.	0neutral
The pharynx serves as the passageway (inside your mouth) for air and food to travel to the larynx and the esophagus.	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
Those with an eversible pharynx usually fold their body around the prey or other food source and cover it with mucus from the epidermal glands.	In the human body, the intersection where the paths for air and food cross is called pharynx.	0neutral
pharynx An area in the vertebrate throat where air and food passages cross;	In the human body, the intersection where the paths for air and food cross is called pharynx.	1entails
Grafton has a humid subtropical climate with hot, wet and humid summers, and mild, drier winters.	In the humid subtropical climate, summers are wet but winters are very cold	1entails
It has a humid subtropical climate with four distinct seasons, cold, but mild, winters, and warm, but wet, summers.	In the humid subtropical climate, summers are wet but winters are very cold	1entails
Singleton has a humid subtropical climate with hot wet summers and cool drier winters.	In the humid subtropical climate, summers are wet but winters are very cold	1entails
The subtropical climate is warm and humid with wet summers and frequent fog.	In the humid subtropical climate, summers are wet but winters are very cold	1entails
A chloride ion and bicarbonate ion exchange pump B.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
Bicarbonate in the red blood cell (RBC) exchanging with chloride from plasma.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	1entails
CP epithelial cells actively transport sodium, chloride and bicarbonate ions into the ventricles and water follows the resulting osmotic gradient.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
Chloride-bicarbonate transport in the erythrocyte membrane.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
It is a transporter that simultaneously transports chloride and bicarbonate ions from inside the cell to the outside.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
Sample Preparation Peripheral blood (500 ml) or bone marrow (200 ml) was made up to 15 ml with red cell lysis buffer (154 mM ammonium chloride, 10 mM potassium bicarbonate, 0.1 mM EDTA) and left for five to 10 minutes at room temperature.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
The subsequent decrease in intracellular bicarbonate concentration reverses chloride-bicarbonate exchange.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
This includes studies on proton transport, chloride channel mediated charge compensation and regulation of acidification, and bicarbonate transport in these cells.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
Unlike other other collecting duct intercalated cells, the gamma cell can transport chloride and bicarbonate in both directions.	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
understand how the Donnan equilibrium is involved in bicarbonate and chloride movement across the red cell wall;	In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.	0neutral
An asteroid six to 10 miles across collided with the Earth about 65 million years ago and is thought to have caused the extinction of the dinosaurs, along with 75 percent of all other species.	In the past, asteroids colliding with planet earth has caused many organisms to die off.	1entails
Asteroids have hit the Earth in the past.	In the past, asteroids colliding with planet earth has caused many organisms to die off.	0neutral
Debris from the explosion, caused by a colliding asteroid, was spread around the globe, plunging the Earth into a long, dark winter.	In the past, asteroids colliding with planet earth has caused many organisms to die off.	0neutral
Had the asteroid collided with the earth just five hours later, the planet's rotation would have caused St Petersburg to be right at its epicentre.	In the past, asteroids colliding with planet earth has caused many organisms to die off.	0neutral
How many asteroids AKA Near-Earth Asteroids (NEA) are in space and may still collide with Earth.	In the past, asteroids colliding with planet earth has caused many organisms to die off.	0neutral
However, over billions of years many asteroid objects have collided with Earth and left their marks with craters that can still be seen.	In the past, asteroids colliding with planet earth has caused many organisms to die off.	0neutral

However, state laws may apply to calls placed within the same state.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

In a concurrent model, if both sides have laws which apply and if they seem to say the same thing, then something called the conflict-of-law rule obtains.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

In studying this section the student will learn something of the historical foundations of science as well as a working definition of science and some rules for applying the scientific method.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

In the physical sciences in particular, the analysis applied is often called the scientific method.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

It is of little importance whether we call medicine, engineering or ethics an applied science, a normative science, or a scientific art.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

Laws establishing work conditions are not always applied uniformly to foreign workers.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

Murphy's Law will always apply.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

SWIFT< Science applies to the same laws of Darwinian evolution.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

Scientific Basis of air Conditioning, Applied Science Publishers, London, 1977

In science, something that always applies under the same conditions is called a scientific law.

0neutral

Scientific methods applied to animal science.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

The Law of Inevitable Pertinent Conditions- Everything will happen sometime, and something is always happening.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

The laws of physics always apply.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

The same applies for scientific disciplines.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

The same applies to the scientific payload.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

The same law would apply if the gabbai was at fault for calling the wrong person to the Torah.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

There is an unwritten law that science is for the scientific.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

Thus technology was considered applied science which helped the scientific process by manipulating the natural conditions of the scientific object.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

Under present conditions, all activity, to be successful, has to be directed somewhere and somehow by the scientific expert -- it is a ease of applied science.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

We cannot apply the Laws of Science to the Magic World, nor the Laws of Magic to the Scientific World.

In science, something that always applies under the same conditions is called a scientific law.

0neutral

Amelioration from motion and walking, from change of position.

In science, motion is defined as a change in position.

0neutral

Basically, objects that are in motion change their position.

In science, motion is defined as a change in position.

1entails

Here's where you will define the motion and position of the camera.

In science, motion is defined as a change in position.

0neutral

If the test masses are subjected to a gravitational wave, their positions will change in a small, but well-defined way; it is this resulting motion that LIGO is designed to detect.

In science, motion is defined as a change in position.

0neutral

In conclusion Motion is change in position.

In science, motion is defined as a change in position.

1entails

In science changes might occur in properties of materials, positions of objects, motion, and form and function of systems.

In science, motion is defined as a change in position.

0neutral

Motion is a change in position (in progress).

In science, motion is defined as a change in position.

1entails

Motion is change in position.

In science, motion is defined as a change in position.

1entails

Motion is defined as the change of position over time, but both of these quantities, position and time, are not defined within the system.

In science, motion is defined as a change in position.

1entails

Motion is position change through time.

In science, motion is defined as a change in position.

1entails

Motion is simply change of position in space.

In science, motion is defined as a change in position.

1entails

Motion is the action or process of changing position.

In science, motion is defined as a change in position.

1entails

Nature, in fact is defined as a principle of motion and change.

In science, motion is defined as a change in position.

0neutral

Never mind that motion has always been defined as a change in position in a coordinate system.

In science, motion is defined as a change in position.

1entails

Relate these changing positions to Earth-Sun motions.

In science, motion is defined as a change in position.

0neutral

Science is a subject in constant motion and constant change.

In science, motion is defined as a change in position.

0neutral

Section 2.1 Defining Motion Any object that is changing its position is said to be in motion .

In science, motion is defined as a change in position.

1entails

We define ON detectors as motion detectors that respond to positive contrast changes (that is from dark to bright), OFF detectors respond to negative contrast changes.

In science, motion is defined as a change in position.

0neutral

1.5.6-1 Define frequency, waves, wavelength, resonance, and vibration and describe their relationship to sound energy.

In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.

0neutral

A vibrating drum in a disco transfers energy to the room as sound.

In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.

0neutral

Frequency is how fast an object vibrates and sound vibrates in waves.

In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.

0neutral

Sound energy is a form of mechanical energy and it is transferred through matter as waves of alternating compression and rarefactions.

In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.

1entails

Sound is a type of energy that requires waves traveling through matter.

In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.

1entails

Sound waves are vibrations transmitted through matter.

In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.

1entails

Sound waves lose energy as they travel.

In science, sound is defined as the transfer of energy from a vibrating object in waves that travel through matter.

0neutral

Arterial blood carries oxygen from inhaled air to all of the cells of the body, and venous blood carries carbon dioxide, a waste product of metabolism by cells, to the lungs to be exhaled.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

Blood (Represents 8% of body weight) Cell-containing fluid that carries nutrients, electrolytes, hormones, antibodies, heat, and oxygen to body tissues and carrying away waste and carbon dioxide.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

Capillaries run throughout the body, passing oxygen, nutrients, and other substance through their walls to the tissue beds and taking carbon dioxide and other waste products from the tissue beds back into the blood stream.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

Cellular respiration uses oxygen and produces carbon dioxide as a waste product.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

During exercise, the cells burn oxygen faster to produce more energy for the body, which creates more carbon dioxide as a waste product.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

In addition to carrying oxygen and nutrients to your body's tissues, it also takes carbon dioxide and waste products away from the tissues.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

One of the most important functions of blood is the transport of oxygen to the body tissues and for carrying away wastes such as carbon dioxide.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

Oxygen is consumed to provide energy to cells, leaving carbon dioxide as a waste product, which the red blood cells carry away from the tissues and back to the lungs.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

Respiration refers to how the cells of the body use oxygen to create energy and how they exhale carbon dioxide that is a waste product of this process.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

The arteries bring oxygen and other nutrients to the cells of the body, and the veins take away the blood after the cells have taken in the oxygen and nutrients and given up their waste products, such as carbon dioxide.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

The cells use the oxygen, giving off carbon dioxide as a waste product.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

The lungs bring air in and out, taking in oxygen and getting rid of carbon dioxide, a waste product of the body.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

The primary task of blood is to carry fuel ( nutrients and oxygen ) to various components of the body, then to carry away waste products ( carbon dioxide and dead cells ).

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

They work by taking oxygen from the air we breathe in and then exchanging it for carbon dioxide, a deadly waste product made by the cells of the body.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

This is where the oxygen and nutrients from the CAPILLARIES go out into the tissues which need them, and in return, carbon dioxide (CO2) and waste products are put in the blood to be carried back to the lung and be exhaled or removed from the body in another way.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

oxygen and nutrients are supplied to the cells for their metabolism and exchanged for carbon dioxide and waste products In this case, oxygen and nutrients exit the systemic capillaries to be used by the cells in their metabolic processes, and carbon dioxide and waste products will enter the blood.

In the body, oxygen is used by cells of the body’s tissues and carbon dioxide is produced as a waste product.

1entails

According to the information listed at the US Environmental Protection Agency's website , incandescent bulbs only convert about 10% of the electrical energy input into visible light energy and about 90% is converted to infrared radiation (or thermal radiation).

In the case of a light bulb, electricity is converted to light and thermal energy.

1entails

Applications of waves and vibrations includes experiments involving mechanical, fluid, light, electrical, and thermal energy converters.

In the case of a light bulb, electricity is converted to light and thermal energy.

0neutral

For example, electrical energy is transferred to the surroundings by the lamp as light energy and thermal energy.

In the case of a light bulb, electricity is converted to light and thermal energy.

1entails

For instance, in a light bulb, the electric potential energy of the charge is transformed into light energy ( a useful form) and thermal energy (a non-useful form).

In the case of a light bulb, electricity is converted to light and thermal energy.

1entails

In a light bulb, electrical energy is transformed into useful light energy (and some non-useful thermal energy).

In the case of a light bulb, electricity is converted to light and thermal energy.

1entails

A muscular organ in the flatworm called the pharynx takes in bits of solid food.

In the human body, the intersection where the paths for air and food cross is called pharynx.

0neutral

Air and food pass through the pharynx on the way to the trachea (windpipe) or the esophagus.

In the human body, the intersection where the paths for air and food cross is called pharynx.

1entails

Air and food pass through the pharynx on the way to the windpipe (trachea) or the esophagus.

In the human body, the intersection where the paths for air and food cross is called pharynx.

1entails

Both food and air pass through the pharynx.

In the human body, the intersection where the paths for air and food cross is called pharynx.

1entails

Food passes from the pharynx to the esophagus, and air passes from the pharynx to the trachea.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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It's like a highway junction where the routes that take air to the lungs and food to the stomach intersect in a common chamber, the pharynx.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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Pharynx The upper part of the pharynx lets air pass through, while the lower part allows food and liquids to pass.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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The Pharynx The pharynx is an intersection for both the digestive and respiratory systems.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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The Throat Back The pharynx is a channel for air and for food.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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The body also uses saliva to lubricate food as it passes through the mouth, pharynx, and esophagus.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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The connection of the middle ear with the pharynx adjusts the pressure in the middle ear to changing air pressures outside the body.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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The food would go in an intestine that is like the pharynx in the human body.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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The pharynx serves as the passageway (inside your mouth) for air and food to travel to the larynx and the esophagus.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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Those with an eversible pharynx usually fold their body around the prey or other food source and cover it with mucus from the epidermal glands.

In the human body, the intersection where the paths for air and food cross is called pharynx.

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pharynx An area in the vertebrate throat where air and food passages cross;

In the human body, the intersection where the paths for air and food cross is called pharynx.

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Grafton has a humid subtropical climate with hot, wet and humid summers, and mild, drier winters.

In the humid subtropical climate, summers are wet but winters are very cold

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It has a humid subtropical climate with four distinct seasons, cold, but mild, winters, and warm, but wet, summers.

In the humid subtropical climate, summers are wet but winters are very cold

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Singleton has a humid subtropical climate with hot wet summers and cool drier winters.

In the humid subtropical climate, summers are wet but winters are very cold

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The subtropical climate is warm and humid with wet summers and frequent fog.

In the humid subtropical climate, summers are wet but winters are very cold

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A chloride ion and bicarbonate ion exchange pump B.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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Bicarbonate in the red blood cell (RBC) exchanging with chloride from plasma.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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CP epithelial cells actively transport sodium, chloride and bicarbonate ions into the ventricles and water follows the resulting osmotic gradient.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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Chloride-bicarbonate transport in the erythrocyte membrane.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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It is a transporter that simultaneously transports chloride and bicarbonate ions from inside the cell to the outside.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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Sample Preparation Peripheral blood (500 ml) or bone marrow (200 ml) was made up to 15 ml with red cell lysis buffer (154 mM ammonium chloride, 10 mM potassium bicarbonate, 0.1 mM EDTA) and left for five to 10 minutes at room temperature.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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The subsequent decrease in intracellular bicarbonate concentration reverses chloride-bicarbonate exchange.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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This includes studies on proton transport, chloride channel mediated charge compensation and regulation of acidification, and bicarbonate transport in these cells.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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Unlike other other collecting duct intercalated cells, the gamma cell can transport chloride and bicarbonate in both directions.

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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understand how the Donnan equilibrium is involved in bicarbonate and chloride movement across the red cell wall;

In the lungs, bicarbonate is transported back into the red blood cells in exchange for chloride.

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An asteroid six to 10 miles across collided with the Earth about 65 million years ago and is thought to have caused the extinction of the dinosaurs, along with 75 percent of all other species.

In the past, asteroids colliding with planet earth has caused many organisms to die off.

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Asteroids have hit the Earth in the past.

In the past, asteroids colliding with planet earth has caused many organisms to die off.

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Debris from the explosion, caused by a colliding asteroid, was spread around the globe, plunging the Earth into a long, dark winter.

In the past, asteroids colliding with planet earth has caused many organisms to die off.

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Had the asteroid collided with the earth just five hours later, the planet's rotation would have caused St Petersburg to be right at its epicentre.

In the past, asteroids colliding with planet earth has caused many organisms to die off.

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How many asteroids AKA Near-Earth Asteroids (NEA) are in space and may still collide with Earth.

In the past, asteroids colliding with planet earth has caused many organisms to die off.

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However, over billions of years many asteroid objects have collided with Earth and left their marks with craters that can still be seen.

In the past, asteroids colliding with planet earth has caused many organisms to die off.

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