Calculate the maximum work done by an ideal gas when pressure on 10 g of `H_2` is reduced from 20 to 2 atm at a constant temperature 300 K.

Calculate triangleq, W, triangleE for the isothermal reversible expansion of one mole of an ideal gas from an initial pressure of 1.0 bar to final pressure of 0.1 bar at a constant temperature of 273 K.

Calculate, DeltaU, W and Q when an ideal gas is compressed at 5 atm pressure from 25 litre to 5 litre at a constant temp of 27^@C .

What amount of work is done if an ideal gas expands from 10 L of 20 L at 2 atm pressure?

The work done by an ideal gas at constant pressure is 10 J. The amount of heat gained in this process is

What amount of work is done if an ideal gas is commpressed from 0.5 to 0.25 L under 0.1 atm pressure?

Calculate the work done when 56 gm N_2 gas (ideal) at 28^@C expands from 10 atm pressure to 2 atm pressure.

Volume of a given mass of an ideal gas is VL at 27^(@)C and 1 atm pressure. If volume of the gas is reduced by 80% at constant pressure, temperature of the gas will have the be-

Calculate the change in internal energy of the gas when it expands from 2L to 8L at a constant pressure of 2 atm absorbing 400 J of heat in the process. (1L *atm=101.35J ).

CO(g)+2H_2(g)iffCH_3OH(g) , for this reversible reaction at equilibrium Keeping temperature constant what will happen if (i) the volume of the container is halved (ii) the partial pressure of H_2 is halved (iii) He gas is introduced at constant temperature and pressure.

Work done during isothermal expension of one mole of an ideal gas from 10 atm to 1 atm at 300 K is