A diatomic mass expands adiabatically so that final density is 32 times the initial density. Find pressure becomes N times of initial presurre . the value of N is:

An ideal gas at atmospheric pressure is adiabatically compressed so that its density becomes 32 times ofits initial value. If the final pressure of gas is 128 atmospheres, the value of gamma of the gas is :

In an adiabatic process, the density of a diatomic gas becomes 32 times its initial value . The final pressure fo the gas is found to be n time the initial pressure . The value of n is :

A diatomic gas undergoes adiabatic compression and its volume reduces to half of initial volume then its final pressure would be if initial pressure of gas is P.

An ideal monoatomic gas is adiabatically compressed so that its final temperature is twice its initial temperature. What is ratio of its final pressure to its initial pressure.

A gas is compressed adiabatically till its pressure becomes 27 times its initial pressure. Calculate final temperature if initial temperature is 27^@ C and value of gamma is 3/2.

An ideal diatomic gas is taken through an adiabatic process in which density increases to 32 times. If pressure increases to 'n' times. Find n

An ideal gs at pressure P is adiabatically compressed so that its density becomes n times the initial vlaue The final pressure of the gas will be (gamma=(C_(P))/(C_(V)))