A gas is allowed to expand at constant pressure from a volume of 1.0 litre to 10.0 litre against an external pressure of 0.50 atm. If the gas absorbs 250 J of heat from the surroundings, what are the values of q, w and `DeltaE`
(Given 1 L atm = 101 J)

A gas is allowed to expand at constant temperature from a volume of 1.0 L to 10.0 L against an external pressure of 0.50 atm. If the gas absorbs 250 J of heat from the surroundings, what are the values of q and DeltaE ? (Given 1 L "atm" =101 J )

A gas expands from 10 litres to 20 litres against a constant external pressure of 10 atm. The pressure-volume work done by the system is

A gas expands isothermally against a constant external pressure of 1 atm from a volume of 10 dm^(3) to a volume of 20 dm^(3) . It absorbs 800 J of thermal energy from its surroundings. The Delta U is

Frictionless and weightless piston was fitted into a cylinder containing a gas This gas was allowed to expand from one litre to 5 litre against a constant pressure of one atmosphere in doing so, 200 J of heat was absorbed from the surrounding . The change in the internal energy of the system is :

One mole of a gas is allowed to expand adiabatically and irreversibly from a volume of 4 litres to a volume of 8 litres against the constant external pressure of one atm. Calculate internal energy change (Delta U) of system.

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)