Consider a molecule in an ideal gas making a collision with the wall of a contai
ID: 2128136 • Letter: C
Question
Consider a molecule in an ideal gas making a collision with the wall of a container. If the mass of the molecule is m and its speed is v, what is the change in momentum during the collision with the wall?(1/2)mv
mv
2mv
(1/2)mv2
mv2
2mv2
Which of the following is true for the isobaric expansion of a gas?
temperature is constant
temperature increases
temperature decreases
Which of the following is true for an isovolumetic heating of a gas?
no work is done
work done by the gas is positive
work done by the gas is negative Which property tends to have the greatest influence on the thermal conductivity of a metal?
density
hardness
electrical conductivity The rate of energy transfer between two objects due to thermal conduction is proportional to the
temperature of the cold object
the temperature of the hot object
the difference in temperature between the objects
the difference in temperature between the objects squared
the difference in temperature between the objects raised to the fourth power
One of the assumptions made about the molecules in an ideal gas is
the number of molecules in the gas is zero
there is only one molecule in the gas
the number of molecules is small but greater than one
the number of molecules is extremely large
Consider a molecule in an ideal gas making a collision with the wall of a container. If the mass of the molecule is m and its speed is v, what is the change in momentum during the collision with the wall?
(1/2)mv
mv
2mv
(1/2)mv2
mv2
2mv2
Which of the following is true for the isobaric expansion of a gas?
temperature is constant
temperature increases
temperature decreases
Which of the following is true for an isovolumetic heating of a gas?
no work is done
work done by the gas is positive
work done by the gas is negative Which property tends to have the greatest influence on the thermal conductivity of a metal?
density
hardness
electrical conductivity The rate of energy transfer between two objects due to thermal conduction is proportional to the
temperature of the cold object
the temperature of the hot object
the difference in temperature between the objects
the difference in temperature between the objects squared
the difference in temperature between the objects raised to the fourth power
One of the assumptions made about the molecules in an ideal gas is
the number of molecules in the gas is zero
there is only one molecule in the gas
the number of molecules is small but greater than one
the number of molecules is extremely large
Consider a molecule in an ideal gas making a collision with the wall of a container. If the mass of the molecule is m and its speed is v, what is the change in momentum during the collision with the wall?
(1/2)mv
mv
2mv
(1/2)mv2
mv2
2mv2
Which of the following is true for the isobaric expansion of a gas?
temperature is constant
temperature increases
temperature decreases
Which of the following is true for an isovolumetic heating of a gas?
no work is done
work done by the gas is positive
work done by the gas is negative Which property tends to have the greatest influence on the thermal conductivity of a metal?
density
hardness
electrical conductivity The rate of energy transfer between two objects due to thermal conduction is proportional to the
temperature of the cold object
the temperature of the hot object
the difference in temperature between the objects
the difference in temperature between the objects squared
the difference in temperature between the objects raised to the fourth power
One of the assumptions made about the molecules in an ideal gas is
the number of molecules in the gas is zero
there is only one molecule in the gas
the number of molecules is small but greater than one
the number of molecules is extremely large
(1/2)mv mv 2mv (1/2)mv2 mv2 2mv2 temperature is constant temperature increases temperature decreases no work is done work done by the gas is positive work done by the gas is negative density hardness electrical conductivity temperature of the cold object the temperature of the hot object the difference in temperature between the objects the difference in temperature between the objects squared the difference in temperature between the objects raised to the fourth power the number of molecules in the gas is zero there is only one molecule in the gas the number of molecules is small but greater than one the number of molecules is extremely large
(1/2)mv
mv
2mv
(1/2)mv2
mv2
2mv2
Explanation / Answer
(1/2)mv2
no work is done
hardness
the number of molecules in the gas is zero
temperature increasesRelated Questions
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