(B) At constant pressure,the heat supplied is given by $Q_P = n C_P \Delta T$.Given $Q_P = 310 \ J$,$n = 2 \ moles$,and $\Delta T = 35 - 25 = 10 \ K$.

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(B) At constant pressure,the heat supplied is given by $Q_P = n C_P \Delta T$.Given $Q_P = 310 \ J$,$n = 2 \ moles$,and $\Delta T = 35 - 25 = 10 \ K$.$310 = 2 \times C_P \times 10 = 20 C_P$.$C_P = \frac{310}{20} = 15.5 \ J \ mol^{-1} K^{-1}$.Using the relation $C_P - C_V = R$,where $R \approx 8.3 \ J \ mol^{-1} K^{-1}$:$C_V = C_P - R = 15.5 - 8.3 = 7.2 \ J \ mol^{-1} K^{-1}$.At constant volume,the heat required is $Q_V = n C_V \Delta T$.$Q_V = 2 \times 7.2 \times 10 = 144 \ J$.

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

Difficult

$310 \ J$ 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 $.... \ J$.

A
$384$
B
$144$
C
$276$
D
$452$

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Class 11 Questions

Class 11

Physics Questions

Chapter

Kinetic Theory of Gases

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

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

Medium

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What is the ratio of specific heats at constant pressure and constant volume for $NH_3$?

Easy

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When $5 \ mol$ of oxygen gas is heated at constant volume from $10^{\circ}C$ to $20^{\circ}C$,the change in internal energy is ........ $cal$. (Given: $C_P = 8 \ cal/mol \cdot K$,$R = 2 \ cal/mol \cdot K$)

Medium

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The specific heat of argon at constant pressure and constant volume are $C_p$ and $C_v$ respectively. Its density $\rho$ at $N.T.P.$ will be: [Where $P$ and $T$ are pressure and temperature respectively at $N.T.P.$]

MediumMHT CET 2024

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According to the law of equipartition of energy, the molar specific heat of a diatomic gas at constant volume, where the molecule has one additional vibrational mode, is:

EasyJEE MAIN 2023

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$310 \ J$ 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 $.... \ J$.

Similar Questions

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

What is the ratio of specific heats at constant pressure and constant volume for $NH_3$?

When $5 \ mol$ of oxygen gas is heated at constant volume from $10^{\circ}C$ to $20^{\circ}C$,the change in internal energy is ........ $cal$. (Given: $C_P = 8 \ cal/mol \cdot K$,$R = 2 \ cal/mol \cdot K$)

The specific heat of argon at constant pressure and constant volume are $C_p$ and $C_v$ respectively. Its density $\rho$ at $N.T.P.$ will be: [Where $P$ and $T$ are pressure and temperature respectively at $N.T.P.$]

According to the law of equipartition of energy, the molar specific heat of a diatomic gas at constant volume, where the molecule has one additional vibrational mode, is:

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