A quantity of dry air at `27 ^(@)C` is compressed (a) slowly and (b) suddenly to 1/3 of its volume. Find the change in temperature in both case assuming y = 1.4 for dry air.

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

One mole of a gas at 27^(@)C and 3 atmospheric pressure is compressed to 1/3 of its volume (a) slowly (b) suddenly. What is the resulting temperature ? gamma =1 .4.

A mass of dry air at N.T.P. is compressed to (1)/(32) th of its original volume suddenly. If gamma=1.4 find the final pressure of the gas if initial pressure is P.

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

Dry air at 15^0 C and 10 atm is suddenly released at atmospheric pressure. Find the final temperature of the air [C_p / C_v = 1.41] .

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 gaseous mixture enclosed in a vessel of volume V consists of one mole of a gas A with gamma=(C_p//C_v)=5//3 and another gas B with gamma=7//5 at a certain temperature T. The relative molar masses of the gasses A and B are 4 and 32, respectively. The gases A and B do not react with each other and are assumed to be ideal. The gaseous mixture follows the equation PV^(19//13)=constant , in adiabatic processes. (a) Find the number of moles of the gas B in the gaseous mixture. (b) Compute the speed of sound in the gaseous mixture at T=300K . (c) If T is raised by 1K from 300K, find the % change in the speed of sound in the gaseous mixture. (d) The mixtrue is compressed adiabatically to 1//5 of its initial volume V. Find the change in its adaibatic compressibility in terms of the given quantities.

A monoatomic gas (gamma=5//3) is suddenly compressed to (1//8) of its volume adiabatically then the pressure of the gas will change to

A monoatomic gas is enclosed in a non-conducting cylinder having a piston which can move freely. Suddenly gas is compressed to 1//8 of its initial volume. Find the final pressure and temperature if initial pressure and temperature are P_(0) and T_(0) respectively.

A monoatomic gas is enclosed in a nonconducting cylinder having a piston which can move freely. Suddenly gas is compressed to 1//8 of its initial volume. Find the final pressure and temperature if initial pressure and temperature are P_(0) and T_(0) respectively.