What will be the increase in temperature if dry air at `27^(@)C` is compressed adiabatically to `1/3 rd` its volume? (For air, `gamma = 1.4)`

The tyre of a motorcar bursts suddenly when air was being pumped in it. The internal pressure became 3 times the atmospheric pressure during pumping. If the initial temperature of the air inside the tyre is 27^(@)C , what will be the decrease in temperature of air due to the bursting of tyre? for air, gamma = 1.4 .

Calculate the pressure required to compress a gas adiabatically at atmospheric pressure to one third of its volume. Given gamma = 1.47 .

A diatomic gas at pressure P, compressed adiabatically to half of its volume, what is the final pressure-

What will be the change in internal energy if 10 g of air is heated from 20^(@)C to 30^(@)C at constant volume? Given , for air, c_(v) = 0.17 cal cdot g^(-1) cdot^(@)C^(-1) .

An ideal gas is compressed isothermally unit its pressure is doubled and then allowed to expand adiabatically to regain its original volume (gamma =1.4 and 2 ^(-1.4) = 0.38) The ratio of the final to initial pressure is

what will be the minimum pressure required to compress 500 dm^3 of air at 1 bar to 200 dm^3 at 30^@C ?

Calculate the amount of work done, if 20 g of hydrogen gas is compressed isothermally to 1/4 th of its volume at 27^(@)C .

A cylinder fitted with a piston contains an ideal gas with a volume of 21 L. the gas is compressed isothermally to 1/3 rd of its initial volume under a constant external pressure of 3 atm. Calculate q, w and DeltaU .

An ideal gas is compressed adiabatically to 1/4 th of its initial volume at 10^(@)C . Find out the final temperature of the gas [gamma = 1.4] .