(C) For an ideal gas, the internal energy $U$ is given by the formula $U = \frac{3}{2} PV$ for a monatomic gas.Given values are $V = 3 \,m^3$ and $P =

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(C) For an ideal gas, the internal energy $U$ is given by the formula $U = \frac{3}{2} PV$ for a monatomic gas.Given values are $V = 3 \,m^3$ and $P = 3 \times 10^5 \,Pa$.Substituting these values into the formula:$U = \frac{3}{2} \times (3 \times 10^5 \,Pa) \times (3 \,m^3)$$U = \frac{3}{2} \times 9 \times 10^5 \,J$$U = 1.5 \times 9 \times 10^5 \,J$$U = 13.5 \times 10^5 \,J$.

Class 11 Physics Kinetic Theory of Gases Pressure and Energy

Easy

An ideal gas is kept in a cylinder of volume $3 \,m^3$ at a pressure of $3 \times 10^5 \,Pa$. The energy of the gas is

AP EAMCET 2024 All AP EAMCET

A
$13.5 \times 10^6 \,J$
B
$1.35 \times 10^5 \,J$
C
$13.5 \times 10^5 \,J$
D
$135 \times 10^6 \,J$

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Kinetic Theory of Gases

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Pressure and Energy

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An ideal gas is kept in a cylinder of volume $3 \,m^3$ at a pressure of $3 \times 10^5 \,Pa$. The energy of the gas is

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What is the kinetic energy of $1$ mole of a monoatomic gas at $0 \, ^\circ C$? $(R = 8.31 \, J/mol \cdot K)$

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