Answer:
An increase in total kinetic energy
An increase in the speed of individual particles
Explanation:
The total kinetic energy of an ideal atomic gas is given by
3
2
N
k
B
T
, where
is the number of atoms,
is the Boltzmann constant, and
is the temperature.
From this, it can be seen that an increase in temperature causes an increase in the kinetic energy of the particles in an ideal atomic gas.
This can also be applied to other ideal gasses with more complex molecules and real gasses.
The kinetic energy of a single particle is given by
m
v
is the mass of that particle and
is the velocity of that particle. Thus, an increase in total kinetic energy will cause particles to overall speed up.
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Answers & Comments
Answer:
An increase in total kinetic energy
An increase in the speed of individual particles
Explanation:
The total kinetic energy of an ideal atomic gas is given by
3
2
N
k
B
T
, where
N
is the number of atoms,
k
B
is the Boltzmann constant, and
T
is the temperature.
From this, it can be seen that an increase in temperature causes an increase in the kinetic energy of the particles in an ideal atomic gas.
This can also be applied to other ideal gasses with more complex molecules and real gasses.
The kinetic energy of a single particle is given by
m
v
2
2
, where
m
is the mass of that particle and
v
is the velocity of that particle. Thus, an increase in total kinetic energy will cause particles to overall speed up.