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Calculate the rms speed of an ideal diat...

Calculate the rms speed of an ideal diatomic gas having molecular weight 32 gm/mol at `0^(@)C` if the specific heats at constant pressure and volume are respectively 9.3 J `mol^(-1)K^(-1)` and 6.34 J `mol^(-1)K^(-1)` respectively.

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355.33 m/s
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Calculate the rms speed of an ideal diatomic gas having molecular weight 32 gm/mol at 0^@ C . If the specific heats at constant pressure and volume are respectively 8.3 J mol^(-1) K^(-1) and 6.34 cal mol^(-1) K^(-1) respectively.

Calculate the rms speed of an ideal monoactomic gas having molecular weight 28 gm/mol at 27^(@)C. if the specific heats at constant pressure and volume are respectively 6.3 J mol^(-1)K^(-1) and 3.14J mol^(-1)K^(-1) respectively

Calculate the rms speed of an ideal monatomic gas having molecular weight 28 gm/mol at 27^@ C . If the specific heats at constant pressure and volume are respectively 6.3 J mol^(-1) K^(-1) and 3.14 J mol^(-1) K^(-1) respectively.

Calculate the molar specific heat at constant volume of neon gas. (R=8.314J mol^(-1)K^(-1) )

Calculate the molar specific heat at constant volume of neon gas. (R = 8.314 J mol^(-1) K^(-1) )

Calculate the molar specific heat of monoatomic gas at constant volume. (R=8.314 J mol^(-1) K^(-1) )

Calculate the molar specific heat of oxygen gas at constant volume. (R=8.314" J "mol^(-1)K^(-1))

Calculate the molar specific heat of diatomic gas at constant volume. (R=8.314" J "mol^(-1)K^(-1))

Calculate the molar specific heat of oxygen gas at constant volume. (R = 8.314 J mol^(-1) K^(-1) )

1 mol e of an ideal monoatomic gas is mixed with 1 mol e of an ideal diatomic gas. The molar specific heat of the mixture at constant volume is :

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