A gas of `gamma=1.4` and initial temperature `0^(@)C` is suddenly compressed to `1//5th` its original volume. Calculate the rise in temperature.

An ideal gas at 27^(@)C is compressed adiabatically to 8//27 of its original volume. If gamma = 5//3 , then the rise in temperature is

A quantity of air at 27^(@)C and atmospheric pressure is suddenly compressed to half its original volume. Find the final (i) pressure and (ii) temperature. Given gamma for air = 1.42 .

A gas is suddenly compressed to 1/4th of its original volume. Caculate the rise in temperature when original temperature is 27^(@)C. gamma= 1.5 .

A gas is suddenly compressed to one fourth of its original volume. What will be its final pressure, if its initial pressure is p

An ideal gas at pressure 2.5 xx 10^(5) pa and temperture 300k occupies 100 cc . It is adiabatically compressed to half its original volume. Calculate (a) the final pressure, (b) the final temperature and ( c) the work done by the gas in the peocess. Take (gamma = 1.5) .

A monoatomic gas is suddenly compressed to 1//8 of its original volume adiabatically. The pressure of gas will change to :

A mixture of gases at NTP for which gamma = 1.5 si suddenly compressed to 1/9th of its original volume. The final temperature of mixture is

A monatomic gas initially at 17^@ C has suddenly compressed adiabatically to one-eighth of its original volume. The temperature after compression is