During the adiabatic-expansion of 2 moles of a gas, change in internal energy was found to be equal to 100 J. Work done in the process will be equal to

During adiabatic expansion of 2 moles of a gas, the internal energy of the gas is found to decrease by 2J. The work done by the gas during the process is

During adiabatic expansion of 2 mol of a gas, the internal energy of the gas is found to decrease by 2J. The work done by the gas during the process is

During adiabatic expansion of 10 mol of a gas, internal energy decreases by 700 J. Work done during the process is x xx 10^(2) J . What is the value of x?

In an adiabatic expansion, the change in internal energy of 10 mol of a gas is 100 J. What is the amount of work done by the gas?

In the adiabatic expansion : the change of 10 mol of a gas’s internal energy is 100 J. What is the amout of its workdone?

Statement I : In an adiabatic process, change in internal energy of a gas is equal to work done on or by the gas in the process. Statement II : Temperature of gas remains constant in an adiabatic process.

5.6 L of helium gas at STP is adiabatically compressed to 0.7 L. Taking the initial temperature to be T_(1) , the work done in the process is

The temperature of 4 mol of a gas decreases from 40^(@)C to -60^(@)C on adiabatic reversible expansion. The molar specific heat of the gas at constant volume being 12J*K^(-1)*mol^(-1) , determine the change in internal energy and work done in this process.