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]`.

A diatomic ideal gas is compressed adiabatically to 1/32 of its initial volume. If the initial temperature of the gas is T_(1) (in kelvin) and the final temperature is aT_(1) .Find the value of a.

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

Some amount of air, initially at STP, is adiabatically compressed to 1/5 th its initial volume. Determine the rise in temperature. Given, gamma = 1.41 .

A gas is suddenly compressed to 1/4th of its original volume. Calculate the rise in temperature. The original temperature being 27^@C and gamma=1.5

Some amount of gas is compressed at STP in an (ii) isothermal process in such a way that the final volume of the gas becomes 1/5 times the initial volume. What will be the final temperature and pressure of the gas in the case? (gamma = 1.4 for the gas)

A gas.is compressed adiabatically till its temperature is doubled.The ratio of its final volume to initial volume is

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 .

Two moles of an ideal monoatomic gas occupies a volume V at 27^(@)C . The gas expands adiabatically to a volume 2V. Calculate (a) the final temperature of the gas and (b) change in its internal energy.