(B) For a monatomic gas,the degree of freedom $f = 3$. $\therefore (C_{p})_1 = (1 + \frac{f}{2}) R = (1 + \frac{3}{2}) R = \frac{5 R}{2}$. For a diato

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(B) For a monatomic gas,the degree of freedom $f = 3$. $\therefore (C_{p})_1 = (1 + \frac{f}{2}) R = (1 + \frac{3}{2}) R = \frac{5 R}{2}$. For a diatomic gas,the degree of freedom $f = 5$. $\therefore (C_{p})_2 = (1 + \frac{f}{2}) R = (1 + \frac{5}{2}) R = \frac{7 R}{2}$. Therefore,the ratio is $\frac{(C_{p})_1}{(C_{p})_2} = \frac{5 R / 2}{7 R / 2} = 5 : 7$.

Class 11 Physics Kinetic Theory of Gases Molar Specific Heat of gas and relation between them (Mayer's formula)

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The ratio of the molar specific heat capacities of monatomic and diatomic gases at constant pressure is (in $: 7$)

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A
$1$
B
$5$
C
$3$
D
$2$

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Kinetic Theory of Gases

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Molar Specific Heat of gas and relation between them (Mayer's formula)

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The ratio of the adiabatic to isothermal elasticities of a triatomic gas is

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The ratio of the molar specific heat capacities of monatomic and diatomic gases at constant pressure is (in $: 7$)

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At constant volume,for different diatomic gases the molar specific heat is

$310 \ J$ of heat is required to raise the temperature of $2 \ moles$ of an ideal gas at constant pressure from $25 \ ^oC$ to $35 \ ^oC$. The amount of heat required to raise the temperature of the gas through the same range at constant volume is $.... \ J$.

Identify the correct relationship between the molar heat capacities of an ideal gas.

The heat required to raise the temperature of $5$ moles of $O_2$ from $10\,^{\circ}C$ to $20\,^{\circ}C$ at constant volume is ....... $cal$. Given: $C_p = 7.2\,cal/mol/^{\circ}C$ and $R = 2\,cal/mol/^{\circ}C$.

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