List of top Physics Questions on Gas laws asked in MHT CET

A gas having (\gamma = \frac{5}{2}) and volume (360 c.c.) is suddenly compressed to (90 c.c.) If initial pressure is (P), then final pressure will be
A tyre of a vehicle is filled with air having pressure $270\text{ kPa}$ at $27^\circ\text{C}$ . The air pressure in the tyre when the temperature increases to $37^\circ\text{C}$ is
A gas having (\gamma = \frac{5}{2}) and volume (360 c.c.) is suddenly compressed to (90 c.c.) If initial pressure is (P), then final pressure will be
A gas having (\gamma = \frac{5}{2}) and volume (360 c.c.) is suddenly compressed to (90 c.c.) If initial pressure is (P), then final pressure will be
A gas occupies a volume of 10.0 L at a pressure of 2.0 atm and a temperature of 300 K. What will the volume be if the pressure is increased to 4.0 atm and the temperature is increased to 600 K? (Assume the amount of gas remains constant.)
An ideal gas is heated from \( 27^\circ\text{C} \) to \( 627^\circ\text{C} \) at constant pressure. If initial volume of gas is \( 4 \text{ m}^3 \), then the final volume of the gas will be
What is the ratio \( \frac{C_p}{C_v} \) for a monatomic and diatomic gas?
The ideal gas equation is given by \( PV = nRT \). Which of the following statements is correct for an ideal gas?
A gas at N.T.P. is suddenly compressed to $(\frac{1}{4})^{th}$ of its original volume. The final pressure in atmosphere is (Given $\gamma = \frac{3}{2}$ and $P = $ original pressure)
The pressure and density of a diatomic gas ($\gamma = \frac{7}{5}$) changes adiabatically from $(P, \rho)$ to $(P', \rho')$. If $\frac{\rho'}{\rho} = 32$ then $\frac{P'}{P}$ should be
At constant temperature, increasing the pressure of a gas by $5%$ its volume will decrease by}