A gas occupies 2 litre at S.T.P. It is provided 300 joule heat so that its becomes 2.5 litre at 1 atm. Calculate change in its internal energy.

A gas occupies 2 litre at STP. It is provided 58.63 joule heat so that its volume becomes 2.5litre at 1 atm. Calculate change in its internal energy

A gas occupies 2L at STP . It is provided 300J heat so that it volume becomes 2.5L at 1atm . Caluclate the change in its internal enegry.

One mole of SO_(2) at 298K and 1atm pressure is heated in a closed vessel so that its temperature is 475K and pressure is 4atm . It is then cooled so that temperature becomes 298K and pressure is 1atm . What is that change in the internal energy of the gas?

In a container, two moles of a diatomic ideal gas is allowed to expand against 1 atm pressrue & volume change from 2 litre of 5 litre then calculate change in internal energy.

A gas absorbs 200J of heat and expands against the external pressure of 1.5 atm from a volume of 0.5 litre to 1.0 litre. Calculate the change in internal energy.

A gas of volume changes 2 litre to 10 litre at constant temperature 300K, then the change in internal energy will be :

A gas at a pressure of 1 atm is compressed at a constant pressure from 10.0 litres to 2.0 litres. If 500 J of heat energy leaves the gas calculate (i) the work done by the gas and (ii) the change in its internal energy.

A gas is at 1 atm pressure with a volume 800 cm^(3) . When 100 J of heat is supplied to the gas, it expands to 1L at constant pressure. The change in its internal energy is

A gas is at 1 atm pressure with a volume 800 cm^(3) . When 100 J of heat is supplied to the gas, it expands to 1L at constant pressure. The change in its internal energy is

One gm mole of an ideal gas at S.T.P is subjected to a reversible adiabatic expansion to double its volume. Find the change in internal energy in the process. Given gamma = 1. 4 [E.Q.]