verage velocities of the gas molecules before and after the compression if the gas is compressed into half the original volume. (ii) Find the ratio of the heat removed from the gas to the work of compression. (iii) Find how different the fraction in (ii) would be in case o

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Chapter1: Units, Trigonometry. And Vectors
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An ideal diatomic gas is compressed isobarically. Assume that all degrees of freedom (translational, rotational, and vibrational) are excited during this process.

(i) Find the ratio of average velocities of the gas molecules before and after the compression if the gas is compressed into half the original volume.

(ii) Find the ratio of the heat removed from the gas to the work of compression.

(iii) Find how different the fraction in (ii) would be in case of monoatomic gas.

An ideal diatomic gas is compressed isobarically. Assume that all degrees of freedom (translational,
rotational, and vibrational) are excited during this process.
(i) Find the ratio of average velocities of the gas molecules before and after the compression if the
gas is compressed into half the original volume.
(ii) Find the ratio of the heat removed from the gas to the work of compression.
(iii) Find how different the fraction in (ii) would be in case of monoatomic gas.
Transcribed Image Text:An ideal diatomic gas is compressed isobarically. Assume that all degrees of freedom (translational, rotational, and vibrational) are excited during this process. (i) Find the ratio of average velocities of the gas molecules before and after the compression if the gas is compressed into half the original volume. (ii) Find the ratio of the heat removed from the gas to the work of compression. (iii) Find how different the fraction in (ii) would be in case of monoatomic gas.
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