In an adiabatic process, the pressure is increased by `(2)/(3)%` and `(C_(p))/(C_(v))=(3)/(2)` for the gas. Then the volume decreases by about:

In a adiabatic process pressure is increased by 2//3% if C_(P)//C_(V) = 3//2 . Then the volume decreases by about

In a adiabatic process pressure is increased by 2//3% if C_(P)//C_(V) = 3//2 . Then the volume decreases by about

In a adiabatic process pressure is increased by 2//3% if C_(P)//C_(V) = 3//2 . Then the volume decreases by about

In an adiabatic process on a gas with (gamma = 1.4) th pressure is increased by 0.5% . The volume decreases by about

The pressure and volume of a given mass of gas at a given temperature are P and V respectively. Keeping the temperature constant, the pressure is increased by 10% and the system is allowed to achieve a steady-state, then the pressure is decreased by 10% what cann be said about the final volume?

The temperature of a gas is increased by 1 °C. Then from the following statements pickout the correct one 1) The volume increases by 1/273 of its volume at 0°C at constant pressure 2) The pressure increases by 1/273 of its pressure at 0°C at constant volume 3) The volume decreases by 1/273 of its volume at 0°C 4) The pressure is doubled to its pressure at 0°C

During an adiabatic process, the pressure of a gas is found to be proportional to the cube of its absolute temperature. The ratio C_P//C_V for the gas is

During an adiabatic process, the pressure of a gas is found to be proportional to the cube of its absolute temperature. The ratio C_P//C_V for the gas is

During an adiabatic process, the pressure of a gas is found to be proportional to the cube of its absolute temperature. The ratio C_P//C_V for the gas is

A gas expands adiabatically at constant pressure such that T propV^(-1//2) The value of gamma (C_(p,m)//C_(v,m)) of the gas will be :