JC-37) Thermal Behavior of Air Air is mostly composed of diatomic nitrogen, N2 oscillator with an effective spring constant of 2.3 x 103 N/m and and effective oscillating mass of half the atomic mass. For what temperatures should vibration contribute to the heat capacity of air? 2. Assume that we can model the gas as an
JC-37) Thermal Behavior of Air Air is mostly composed of diatomic nitrogen, N2 oscillator with an effective spring constant of 2.3 x 103 N/m and and effective oscillating mass of half the atomic mass. For what temperatures should vibration contribute to the heat capacity of air? 2. Assume that we can model the gas as an
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![JC-37) Thermal Behavior of Air
Air is mostly composed of diatomic nitrogen, N2
oscillator with an effective spring constant of 2.3 x 103 N/m and and effective oscillating mass of half the
atomic mass. For what temperatures should vibration contribute to the heat capacity of air?
2. Assume that we can model the gas as an](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdb6e49c2-d01d-4438-a99a-92f670cec770%2F8be65aa1-e3b2-40bf-81dc-29ad5d702d31%2Fyaym66o_processed.png&w=3840&q=75)
Transcribed Image Text:JC-37) Thermal Behavior of Air
Air is mostly composed of diatomic nitrogen, N2
oscillator with an effective spring constant of 2.3 x 103 N/m and and effective oscillating mass of half the
atomic mass. For what temperatures should vibration contribute to the heat capacity of air?
2. Assume that we can model the gas as an
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