The work done during the expansion of a gas from a volume of `4 dm^(3)` to `6 dm^(3)` against a constant external pressure of 3 atm, is

The work done during the expanision of a gas from a volume of 4 dm^(3) to 6 dm^(3) against a constant external pressure of 3 atm is (1 L atm = 101.32 J)

The work done during the expanision of a gas from a volume of 4 dm^(3) to 6 dm^(3) against a constant external pressure of 3 atm is (1 L atm = 101.32 J)

The work done during the expansion of a gas from a volume of 3 dm^(3) against a constant external pressure of 3 atm is (1 L atm = 101.3 J)

The work done and internal energy change during the adiabatic expansion of a gas from a volume of 2.5 L to 4.5 L against a constant external pressure of 5 atm respectively are ( 1 L atm=101.3 J )

Work done in expansion of an ideal gas from 4 litre to 6 litre against a constant external pressure of 2.1 atm was used to heat up 1 mole of water at 293 K . If specific heat of water is 4.2 J g^(-1)K^(-1) , what is the final temperature of water?

Work done in expansion of an idela gas from 4L to 6L against a constant external pressure of 2.5 atm was used to heat up 1mol of water at 293K . If specific heat of water is 4.184J g^(-1)K^(-1) , what is the final temperature of water.

5 mole of an ideal gas expand isothermally and irreversibly from a pressure of 10 atm to 1 atm against a constant external pressure of 2 atm. w_(irr) at 300 K is :

What will be the work done for expansion of a gas from 1 lit to 10 lit volume agaist constant pressure of 1 bar?

One mole of a gas occupying 3dm^(3) expands against a constant external pressure of 1 atm to a volume of 13 lit. The workdone is :-

Work done during isothermal expansion of one mole of an ideal gas form 10atm to 1atm at 300K is (Gas constant= 2 )