If c is r.m.s speed of molecules in a gas and v is the speed of sound waves in the gas, show that c/v is constant and independent of temperature for all diatomic gases.

Answers (1)

We know that $c= \sqrt{\frac{3P}{\rho}}$ for molecules

$c= \sqrt{\frac{3RT}{M}}$

$\frac{p}{\rho}=\frac{PT}{M}$ where M is the molar mass of gas

$\frac{P}{\rho}=\frac{\frac{RT}{V}}{\frac{M}{V}}$

$v=\frac{\gamma P}{\rho}=\frac{\gamma RT}{M}$

PV=nRT When n=1

$P=\frac{RT}{V}$ $cv=\sqrt{\frac{\frac{3RT}{M}}{\frac{\gamma RT}{M}}} ={\sqrt{}\frac{3}{\gamma }}$

$c/v=\sqrt{\frac{\frac{3RT}{M}}{\frac{\gamma RT}{M}}} ={\sqrt{}\frac{3}{\gamma }}$

$\gamma =\frac{C_{p}}{C_{v}}=\frac{7}{5}$ adiabatic constant for diatomic gas

$\frac{c}{v}= \sqrt{\frac{15}{7}}$ =constant

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If c is r.m.s speed of molecules in a gas and v is the speed of sound waves in the gas, show that c/v is constant and independent of temperature for all diatomic gases.

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