5.6 liter of helium gas at STP is adiabatically compressed to 0.7 liter. Taking the initial temperature to be `T_1,` the work done in the process is

If 5 moles of oxygen at STP is adiabatically compressed so that temperature increases to 400^@C , then find the work done on the gas. R=8.3J/mole−K

An ideal monatomic gas is adiabatically compressed so that itsfinal temperature is twice its initial temperature. What is the ratio of the final pressure to itsinitial pressure?

One mole of O_2 gas having a volume equal to 22.4 litres at 0^@C and 1 atmospheric pressure in compressed isothermally so that its volume reduces to 11.2 litres . The work done in this process is

One mole of an ideal gas is compressed from 500 cm3 against a constant external pressure of 1.2 xx 10^5 Pa The work involved in the process is 36.0 J. Calculate the final volume.

A metal bar of mass 1.5 kg is heated at atmospheric pressure. Its temperature is increased from 30 °C to 60 °C. Then the work done in the process is (Volume expansion coefficient of the metal = 5xx10^(-5)^(@)C^(-1) , density of the metal =9xx10^3kgm^(-3) Atmospheric pressure =1xx10^5Pa )

An ideal gas of volume 1.0 L is adiabatically compressed to (1/15) of its initial volume. Its initial pressure and temperature is 1.01 xx 10^5 Pa and 27^@C respectively . Given CV for ideal gas = 20.8 J/mol.K and y = 1.4 . Calculate work done

One mole of an ideal gas at temperature T was cooled isochorically till the gas pressure fell from P to (P)/(n) . Then, by an isobaric process, the gas was restored to the initial temperature. The net amount of heat absorbed by the gas in the process is

A cylinder containing one gram molecule of the gas compressed adiabatic ally until its temperature from 27^@C to 97^@C . Calculate the work done and heat produced in the gas. (y = 1.5)

During the adiabatic expansion of 2 moles of a gas, the internal energy of the gas is found to decrease by 2 joules , the work done during the process on the gas will be equal to