The constant volume c, and pressure c, heat capacities can be treated as the temper- ature derivatives of the average kinetic (Ek) and average total (Etotal) energies of the atoms, respectively. Find in this way c, in the Earth gravity field (g=const). C, for one-atomic ideal gas which is found
The constant volume c, and pressure c, heat capacities can be treated as the temper- ature derivatives of the average kinetic (Ek) and average total (Etotal) energies of the atoms, respectively. Find in this way c, in the Earth gravity field (g=const). C, for one-atomic ideal gas which is found
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![The constant volume c, and pressure c, heat capacities can be treated as the temper-
ature derivatives of the average kinetic (Ek) and average total (Etotat) energies of the
atoms, respectively. Find in this way c,
in the Earth gravity field (g=const).
Cy for one-atomic idcal gas which is found](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F880b8c73-cbc7-4f0a-930b-6c34e16b69d8%2F3d4d047e-4d04-418d-8f2f-96706c08aba6%2Fyojunye_processed.png&w=3840&q=75)
Transcribed Image Text:The constant volume c, and pressure c, heat capacities can be treated as the temper-
ature derivatives of the average kinetic (Ek) and average total (Etotat) energies of the
atoms, respectively. Find in this way c,
in the Earth gravity field (g=const).
Cy for one-atomic idcal gas which is found
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