Shayanvsf/Entailment · Datasets at Hugging Face

premise stringlengths 1 46.3k	hypothesis stringlengths 21 234	label stringclasses 2 values
This ridge of sand that forms just offshore results from summer waves (low-energy) pushing sand from deeper to shallower, or from winter waves carrying sand offshore.	Low energy causes waves to bring sand up onto the beach during summers.	entails
Union Summer brings new energy to King County's unions This summer brought a new wave of Union Summer to the Seattle area.	Low energy causes waves to bring sand up onto the beach during summers.	neutral
Vertical relief on the sand section of the beach rarely exceeds 10 cm's, reflecting the tidal range and the low impact of waves.	Low energy causes waves to bring sand up onto the beach during summers.	neutral
51 Pegasi was the first Sun-like star discovered to have an exoplanet companion;	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
An exoplanet, HAT-P-12b, was discovered orbiting the star by the transit method in 2009.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
As a byproduct of the constant monitoring of hundreds of millions of stars, the largest catalogs of variable stars were constructed, and the first exoplanets discovered using the microlensing technique were detected.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Exoplanets and multiple star systems.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
HD 117618 b is an exoplanet discovered orbiting the star in September 2004.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
HD 9446 b is an exoplanet discovered in 2010 orbiting the star HD 9446 in the constellation Triangulum, 53 parsecs from Earth.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
HD 9446 c is an exoplanet discovered in 2010 orbiting the star HD 9446 in the constellation Triangulum, 53 parsecs from Earth.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
In January 2006, an exoplanet was discovered orbiting the star by Exoplanet Tracker.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
It is with that instrument that the first exoplanet around an ordinary star (51 Peg) was discovered.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Kepler Discovers Five Exoplanets	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Kepler-11b is an exoplanet discovered around the star Kepler-11 by the Kepler spacecraft, a NASA-led mission to discover Earth-like planets.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Kepler-62d is the third innermost and the largest exoplanet discovered orbiting the star Kepler-62, with a size roughly twice the diameter of Earth.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Kepler-9b's name denotes that it is the first exoplanet discovered in orbit around the star Kepler-9.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Like the other two exoplanets, HD 40307 b and HD 40307 d, orbiting the star HD 40307, HD 40307 c was discovered by measuring variations in the radial velocity of HD 40307 caused by the star's orbit around the center of mass of the planetary system.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Mercury is the largest celestial body of this type in the Solar System, but larger iron-rich exoplanets may exist.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
NASA Star and Exoplanet Database	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Provides a table of exoplanet candidates and information on the exoplanets discovered to date.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
Scientists have discovered thousands of exoplanets.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
The exoplanet was found by using the transit method, in which the dimming effect that a planet causes as it crosses in front of its star is measured.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	entails
The exoplanet was found using the transit method, in which the dimming effect that a planet causes as it crosses in front of its star is measured.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	entails
The first exoplanet discovered in the course of the COROT mission orbits this star;	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
This then brings the total number of planets discovered circling other stars, so called exoplanets to 50.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
WASP-17b was the first exoplanet that was discovered to be orbiting its star opposite to the direction the star is rotating.	A(n) exoplanet is often discovered because it causes a star to move or to dim.	neutral
A supernova creates the elements that are heavier than iron (such as gold and most of the other metals).	Supernovas are the source of elements heavier than iron.	entails
During a supernova, all the elements heavier than IRON are made.	Supernovas are the source of elements heavier than iron.	entails
Elements heavier than iron are made in supernova explosions from the combination of the abundant neutrons with heavy nuclei.	Supernovas are the source of elements heavier than iron.	entails
Supernova Nucleosynthesis of 60 Fe Description The synthesis of heavy elements of the iron group is believed to be associated with supernova events.	Supernovas are the source of elements heavier than iron.	entails
The gas is highly enriched by heavy elements, with four times more calcium and iron than the Sun, and that confirms earlier suspicions that Sagittarius A East is most likely a remnant of a supernova explosion.	Supernovas are the source of elements heavier than iron.	neutral
The source has shown astronomers that rare events do exist, and that other supernova remnants could harbor the remains of other combinations of radioactive elements, which could further bolster supernova modeling.	Supernovas are the source of elements heavier than iron.	neutral
Thus, Type II supernovae are the only source (in today's universe) of all elements heavier than iron (which are much less abundant than the lighter ones).	Supernovas are the source of elements heavier than iron.	entails
Both LDL and its receptor form vesicles within a cell via endocytosis.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Degranulation is a cellular process that releases antimicrobial cytotoxic molecules from secretory vesicles called granules found inside some cells.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Endocytosis Vesicles VII.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Our long-term goal is to reconstitute the fusion activity of viral molecules into larger structures, such as vesicles and cells, and to measure the mechanics and dynamics of fusion using micropipette.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Phospholipase D is a regulator of several critical cellular processes, including vesicle transport, endocytosis, exocytosis, cell migration, and mitosis.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Presynaptic cells will produce specific neurotransmitter molecules, and these neurotransmitter molecules will be stored in sac-like structures called vesicles .	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Rhythmic opening and closing of vesicles during constitutive exo- and endocytosis in chromaffin cells.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
The Carry is accomplished by means of a Fuse (of the Vesicle created by Endocytosis with a Lysosome of the Cell).	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
The clathrin coated pit and vesicle are paradigms of these structures, and are involved in receptor-mediated endocytosis at the plasma membrane and protein sorting in the trans-Golgi region of virtually all eukaryotic cells.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Their interactions allow the temporal and spatial regulation of the assembly of clathrin-coated vesicles and their endocytosis.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
This in turn allows either for the foreign molecule to be released into the cytoplasm or for the vesicle to pass into the cytoplasm and transfer the molecule into a specific cell organelle.	Vesicles are used during endocytosis to allow molecules to enter the cell.	neutral
Vesicles- vesicles are involved in cell-mediated transport (see endocytosis and exocytosis).	Vesicles are used during endocytosis to allow molecules to enter the cell.	entails
A plasma contains electrically charged particles in addition to neutral atoms and molecules.	Atoms carry a neutral charge.	neutral
At neutral pH (pH 7), only the nitrogen atom of the diphenylamine moiety carries a positive charge and the blue dye molecule is an anion with an overall charge of -1.	Atoms carry a neutral charge.	neutral
Atoms are neutral because the electrons are balanced with the positive charge of the protons.	Atoms carry a neutral charge.	entails
Atoms are ordinarily neutral in charge.	Atoms carry a neutral charge.	entails
Atoms in their natural state have no charge, that is they are neutral.	Atoms carry a neutral charge.	entails
Atoms were known to be neutral or have no charge.	Atoms carry a neutral charge.	entails
Because atoms are electrically neutral, there must be balancing positive charges somewhere in the atom.	Atoms carry a neutral charge.	entails
IMAGE will carry a complement of instrumentations for radio, neutral-atom, FUV and EUV imaging.	Atoms carry a neutral charge.	neutral
Ion : An atom or molecule that is not electrically neutral but instead carries a positive or negative charge.	Atoms carry a neutral charge.	neutral
Knowing that atoms are neutral, Thomson postulated that there must be a positive charge as well.	Atoms carry a neutral charge.	entails
Most atoms have a neutral charge;	Atoms carry a neutral charge.	entails
Since the negative and positive charges are balanced, the atom is neutral, or without any charge.	Atoms carry a neutral charge.	entails
The number of positive charges on the nucleus of an atom, and in a neutral atom the number of orbital electrons.	Atoms carry a neutral charge.	neutral
The positive charge of the proton and the negative charge of the electron neutralize each other and, therefore, give the atom an electrically neutral charge.	Atoms carry a neutral charge.	entails
These opposite charges attract and balance one another, leaving the atom neutral overall.	Atoms carry a neutral charge.	entails
All Arachnids have 6 pairs of appendages.	A(n) arachnid has additional appendages called the chelicerae and the pedipalps.	neutral
Arachnids have eight pairs of appendages rather than six (chelicerae, pedipalps, four pairs of walking legs) and are primarily terrestrial.	A(n) arachnid has additional appendages called the chelicerae and the pedipalps.	entails
As arachnids, scorpions have mouthparts called chelicerae (jaws), a pair of pedipalps (pinchers), and four pairs of legs.	A(n) arachnid has additional appendages called the chelicerae and the pedipalps.	entails
Description As arachnids, scorpions have mouthparts called chelicerae , a pair of pedipalps , and four pairs of legs.	A(n) arachnid has additional appendages called the chelicerae and the pedipalps.	entails
ATP (adenosine triphosphate) is stored in the mitochondria of muscle cells and produces energy when converted into ADP.	The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.	entails
Adenosine Triphosphate (ATP) is the intermediate molecule that drives the exergonic transfer of energy to switch to endergonic anabolic reactions used in muscle contraction.	The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.	entails
Contraction of muscle is fuelled by the use of adenosine triphosphate (ATP) in the body.	The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.	entails
Muscle contractions require adenosine triphosphate (ATP) energy which is produced by glycolysis (the breakdown of the glucose molecule).	The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.	entails
When you begin high intensity exercise the primary source of energy is adenosine triphosphate (ATP) in your muscles.	The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.	entails
Also known as white blood cells or leukocytes.	Leukocytes blood cells are white.	entails
Another word for white blood cells is leukocytes.	Leukocytes blood cells are white.	entails
For cryopreserved leukocytes (white blood cells).	Leukocytes blood cells are white.	entails
It affects the white blood cells known as leukocytes.	Leukocytes blood cells are white.	entails
It involves the white blood cells known as leukocytes.	Leukocytes blood cells are white.	entails
Leukemias are caused by the proliferation of white blood cells, or leukocytes.	Leukocytes blood cells are white.	entails
Leukocyte A white blood cell or corpuscle.	Leukocytes blood cells are white.	entails
Leukocyte Another term for a white blood cell.	Leukocytes blood cells are white.	entails
Leukocyte white blood cell.	Leukocytes blood cells are white.	entails
Leukocytes (White Blood Cells)	Leukocytes blood cells are white.	entails
Leukocytes (white blood cells;	Leukocytes blood cells are white.	entails
Leukocytes White blood cells or corpuscles.	Leukocytes blood cells are white.	entails
Leukocytes are white blood cells.	Leukocytes blood cells are white.	entails
Leukocytes is another name for white blood cells.	Leukocytes blood cells are white.	entails
Neutrophils, lymphocytes and eosinophils are white blood cells, or leukocytes.	Leukocytes blood cells are white.	entails
There are a large number of leukocytes (white blood cells) in colostrum.	Leukocytes blood cells are white.	entails
White Blood Cells (leukocytes);	Leukocytes blood cells are white.	entails
White blood cells (leukocytes) may be a sign of an infection.	Leukocytes blood cells are white.	entails
White blood cells (leukocytes) may be present.	Leukocytes blood cells are white.	entails
White blood cells are called leukocytes .	Leukocytes blood cells are white.	entails
White blood cells are known as Leukocytes.	Leukocytes blood cells are white.	entails
White cells (leukocytes) are the protective cells in the blood stream.	Leukocytes blood cells are white.	entails
and migration of leukocytes (white blood cells) into the inflammatory focus.	Leukocytes blood cells are white.	entails
leukocytes (LEW-koh-sites) White blood cells.	Leukocytes blood cells are white.	entails
this damage is mediated by leukocytes (a type of white blood cell).	Leukocytes blood cells are white.	entails
white blood cells ( leukocytes ) fight infections and illness.	Leukocytes blood cells are white.	entails
Increase intake of starches and complex carbohydrates.	Starches are complex carbohydrates that are the polymers of glucose.	neutral
Iodine forms an intense blue complex with the glucose polymers starch and glycogen.	Starches are complex carbohydrates that are the polymers of glucose.	neutral
Starch is a polymer made up of glucose molecules.	Starches are complex carbohydrates that are the polymers of glucose.	entails
2 Ground Level Ozone Concentrations in North Carolina Ambient levels of ozone vary by region, time of day, the presence of ozone-forming compounds, and weather conditions.	Ozone is a compound formed when there is sparking electrical equipment.	neutral
Chemistry, Meteorology, and Ozone Ozone forms when certain chemical compounds (nitrogen oxides, NOx;	Ozone is a compound formed when there is sparking electrical equipment.	neutral

This ridge of sand that forms just offshore results from summer waves (low-energy) pushing sand from deeper to shallower, or from winter waves carrying sand offshore.

Low energy causes waves to bring sand up onto the beach during summers.

entails

Union Summer brings new energy to King County's unions This summer brought a new wave of Union Summer to the Seattle area.

Low energy causes waves to bring sand up onto the beach during summers.

neutral

Vertical relief on the sand section of the beach rarely exceeds 10 cm's, reflecting the tidal range and the low impact of waves.

Low energy causes waves to bring sand up onto the beach during summers.

neutral

51 Pegasi was the first Sun-like star discovered to have an exoplanet companion;

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

An exoplanet, HAT-P-12b, was discovered orbiting the star by the transit method in 2009.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

As a byproduct of the constant monitoring of hundreds of millions of stars, the largest catalogs of variable stars were constructed, and the first exoplanets discovered using the microlensing technique were detected.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Exoplanets and multiple star systems.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

HD 117618 b is an exoplanet discovered orbiting the star in September 2004.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

HD 9446 b is an exoplanet discovered in 2010 orbiting the star HD 9446 in the constellation Triangulum, 53 parsecs from Earth.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

HD 9446 c is an exoplanet discovered in 2010 orbiting the star HD 9446 in the constellation Triangulum, 53 parsecs from Earth.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

In January 2006, an exoplanet was discovered orbiting the star by Exoplanet Tracker.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

It is with that instrument that the first exoplanet around an ordinary star (51 Peg) was discovered.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Kepler Discovers Five Exoplanets

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Kepler-11b is an exoplanet discovered around the star Kepler-11 by the Kepler spacecraft, a NASA-led mission to discover Earth-like planets.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Kepler-62d is the third innermost and the largest exoplanet discovered orbiting the star Kepler-62, with a size roughly twice the diameter of Earth.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Kepler-9b's name denotes that it is the first exoplanet discovered in orbit around the star Kepler-9.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Like the other two exoplanets, HD 40307 b and HD 40307 d, orbiting the star HD 40307, HD 40307 c was discovered by measuring variations in the radial velocity of HD 40307 caused by the star's orbit around the center of mass of the planetary system.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Mercury is the largest celestial body of this type in the Solar System, but larger iron-rich exoplanets may exist.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

NASA Star and Exoplanet Database

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Provides a table of exoplanet candidates and information on the exoplanets discovered to date.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

Scientists have discovered thousands of exoplanets.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

The exoplanet was found by using the transit method, in which the dimming effect that a planet causes as it crosses in front of its star is measured.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

entails

The exoplanet was found using the transit method, in which the dimming effect that a planet causes as it crosses in front of its star is measured.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

entails

The first exoplanet discovered in the course of the COROT mission orbits this star;

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

This then brings the total number of planets discovered circling other stars, so called exoplanets to 50.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

WASP-17b was the first exoplanet that was discovered to be orbiting its star opposite to the direction the star is rotating.

A(n) exoplanet is often discovered because it causes a star to move or to dim.

neutral

A supernova creates the elements that are heavier than iron (such as gold and most of the other metals).

Supernovas are the source of elements heavier than iron.

entails

During a supernova, all the elements heavier than IRON are made.

Supernovas are the source of elements heavier than iron.

entails

Elements heavier than iron are made in supernova explosions from the combination of the abundant neutrons with heavy nuclei.

Supernovas are the source of elements heavier than iron.

entails

Supernova Nucleosynthesis of 60 Fe Description The synthesis of heavy elements of the iron group is believed to be associated with supernova events.

Supernovas are the source of elements heavier than iron.

entails

The gas is highly enriched by heavy elements, with four times more calcium and iron than the Sun, and that confirms earlier suspicions that Sagittarius A East is most likely a remnant of a supernova explosion.

Supernovas are the source of elements heavier than iron.

neutral

The source has shown astronomers that rare events do exist, and that other supernova remnants could harbor the remains of other combinations of radioactive elements, which could further bolster supernova modeling.

Supernovas are the source of elements heavier than iron.

neutral

Thus, Type II supernovae are the only source (in today's universe) of all elements heavier than iron (which are much less abundant than the lighter ones).

Supernovas are the source of elements heavier than iron.

entails

Both LDL and its receptor form vesicles within a cell via endocytosis.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Degranulation is a cellular process that releases antimicrobial cytotoxic molecules from secretory vesicles called granules found inside some cells.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Endocytosis Vesicles VII.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Our long-term goal is to reconstitute the fusion activity of viral molecules into larger structures, such as vesicles and cells, and to measure the mechanics and dynamics of fusion using micropipette.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Phospholipase D is a regulator of several critical cellular processes, including vesicle transport, endocytosis, exocytosis, cell migration, and mitosis.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Presynaptic cells will produce specific neurotransmitter molecules, and these neurotransmitter molecules will be stored in sac-like structures called vesicles .

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Rhythmic opening and closing of vesicles during constitutive exo- and endocytosis in chromaffin cells.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

The Carry is accomplished by means of a Fuse (of the Vesicle created by Endocytosis with a Lysosome of the Cell).

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

The clathrin coated pit and vesicle are paradigms of these structures, and are involved in receptor-mediated endocytosis at the plasma membrane and protein sorting in the trans-Golgi region of virtually all eukaryotic cells.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Their interactions allow the temporal and spatial regulation of the assembly of clathrin-coated vesicles and their endocytosis.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

This in turn allows either for the foreign molecule to be released into the cytoplasm or for the vesicle to pass into the cytoplasm and transfer the molecule into a specific cell organelle.

Vesicles are used during endocytosis to allow molecules to enter the cell.

neutral

Vesicles- vesicles are involved in cell-mediated transport (see endocytosis and exocytosis).

Vesicles are used during endocytosis to allow molecules to enter the cell.

entails

A plasma contains electrically charged particles in addition to neutral atoms and molecules.

Atoms carry a neutral charge.

neutral

At neutral pH (pH 7), only the nitrogen atom of the diphenylamine moiety carries a positive charge and the blue dye molecule is an anion with an overall charge of -1.

Atoms carry a neutral charge.

neutral

Atoms are neutral because the electrons are balanced with the positive charge of the protons.

Atoms carry a neutral charge.

entails

Atoms are ordinarily neutral in charge.

Atoms carry a neutral charge.

entails

Atoms in their natural state have no charge, that is they are neutral.

Atoms carry a neutral charge.

entails

Atoms were known to be neutral or have no charge.

Atoms carry a neutral charge.

entails

Because atoms are electrically neutral, there must be balancing positive charges somewhere in the atom.

Atoms carry a neutral charge.

entails

IMAGE will carry a complement of instrumentations for radio, neutral-atom, FUV and EUV imaging.

Atoms carry a neutral charge.

neutral

Ion : An atom or molecule that is not electrically neutral but instead carries a positive or negative charge.

Atoms carry a neutral charge.

neutral

Knowing that atoms are neutral, Thomson postulated that there must be a positive charge as well.

Atoms carry a neutral charge.

entails

Most atoms have a neutral charge;

Atoms carry a neutral charge.

entails

Since the negative and positive charges are balanced, the atom is neutral, or without any charge.

Atoms carry a neutral charge.

entails

The number of positive charges on the nucleus of an atom, and in a neutral atom the number of orbital electrons.

Atoms carry a neutral charge.

neutral

The positive charge of the proton and the negative charge of the electron neutralize each other and, therefore, give the atom an electrically neutral charge.

Atoms carry a neutral charge.

entails

These opposite charges attract and balance one another, leaving the atom neutral overall.

Atoms carry a neutral charge.

entails

All Arachnids have 6 pairs of appendages.

A(n) arachnid has additional appendages called the chelicerae and the pedipalps.

neutral

Arachnids have eight pairs of appendages rather than six (chelicerae, pedipalps, four pairs of walking legs) and are primarily terrestrial.

A(n) arachnid has additional appendages called the chelicerae and the pedipalps.

entails

As arachnids, scorpions have mouthparts called chelicerae (jaws), a pair of pedipalps (pinchers), and four pairs of legs.

A(n) arachnid has additional appendages called the chelicerae and the pedipalps.

entails

Description As arachnids, scorpions have mouthparts called chelicerae , a pair of pedipalps , and four pairs of legs.

A(n) arachnid has additional appendages called the chelicerae and the pedipalps.

entails

ATP (adenosine triphosphate) is stored in the mitochondria of muscle cells and produces energy when converted into ADP.

The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.

entails

Adenosine Triphosphate (ATP) is the intermediate molecule that drives the exergonic transfer of energy to switch to endergonic anabolic reactions used in muscle contraction.

The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.

entails

Contraction of muscle is fuelled by the use of adenosine triphosphate (ATP) in the body.

The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.

entails

Muscle contractions require adenosine triphosphate (ATP) energy which is produced by glycolysis (the breakdown of the glucose molecule).

The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.

entails

When you begin high intensity exercise the primary source of energy is adenosine triphosphate (ATP) in your muscles.

The coenzyme atp or adenozine triphosphate is used in the transfer of energy in muscles.

entails

Also known as white blood cells or leukocytes.