NEET Physics Kinetic Theory of Gases Pressure And Kinetic Interpretation Of Temperature MCQs

According to the kinetic theory of gases, the pressure exerted by a gas is due to:

The average kinetic energy of gas molecules is directly proportional to:

At absolute zero temperature, the kinetic energy of gas molecules theoretically becomes:

Which of the following is NOT an assumption of the kinetic theory of ideal gases?

If the temperature of a gas is doubled while the volume is kept constant, the pressure will:

If the average kinetic energy of gas molecules increases, the temperature of the gas will:

A sealed container of fixed volume holds a mixture of two ideal monatomic gases, A and B, at a temperature $T$. The molar mass of gas A is twice that of gas B. If the average translational kinetic energy of the molecules of gas A is $K_A$ and that of gas B is $K_B$, which of the following is true?

A diatomic gas undergoes an adiabatic expansion. If the initial pressure is $P_1$ and the final pressure is $P_2$, and the initial volume is $V_1$, what is the final volume $V_2$?

At what temperature (in Kelvin) will the average translational kinetic energy of a helium atom be equal to the ionization energy of a hydrogen atom (13.6 eV)?

A container of fixed volume holds an ideal gas at a pressure $P$ and temperature $T$. If the root mean square speed of the gas molecules is doubled while maintaining the same number density, what is the new pressure?