The difference between volume and pressure co | vedclass

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(D) For an ideal gas,the volume expansion coefficient $(\gamma_V)$ and the pressure coefficient $(\gamma_P)$ are defined as follows:$\gamma_V = \frac{

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zero

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(D) For an ideal gas,the volume expansion coefficient $(\gamma_V)$ and the pressure coefficient $(\gamma_P)$ are defined as follows:$\gamma_V = \frac{1}{V} (\frac{\partial V}{\partial T})_P$$\gamma_P = \frac{1}{P} (\frac{\partial P}{\partial T})_V$For an ideal gas,the equation of state is $PV = nRT$.At constant pressure,$V = (\frac{nR}{P})T$,so $(\frac{\partial V}{\partial T})_P = \frac{nR}{P}$. Thus,$\gamma_V = \frac{1}{V} \cdot \frac{nR}{P} = \frac{1}{T}$.At constant volume,$P = (\frac{nR}{V})T$,so $(\frac{\partial P}{\partial T})_V = \frac{nR}{V}$. Thus,$\gamma_P = \frac{1}{P} \cdot \frac{nR}{V} = \frac{1}{T}$.Since $\gamma_V = \gamma_P = \frac{1}{T}$,their difference is $\gamma_V - \gamma_P = 0$.

Column-$I$	Column-$II$
$(a)$ Kinetic energy per unit mole of gas.	$(i)$ $\frac{1}{2}RT$
$(b)$ Kinetic energy per one molecule of gas.	$(ii)$ $\frac{3}{2}RT$
	$(iii)$ $\frac{3}{2}k_BT$

The difference between volume and pressure coefficients of an ideal gas is

Similar Questions

For two different gases $X$ and $Y$, having degrees of freedom $f_1$ and $f_2$ and molar heat capacities at constant volume $C_{V1}$ and $C_{V2}$ respectively, the $\ln P$ versus $\ln V$ graph is plotted for an adiabatic process, as shown.

Column-$I$ represents physical quantity and Column-$II$ represents formula. Match them correctly:
Column-$I$ Column-$II$
$(a)$ Kinetic energy per unit mole of gas. $(i)$ $\frac{1}{2}RT$
$(b)$ Kinetic energy per one molecule of gas. $(ii)$ $\frac{3}{2}RT$
$(iii)$ $\frac{3}{2}k_BT$

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