One mole of an ideal gas is kept enclosed under a light piston (area `=10^(-1)m^(2)`) connected by a compressed spring (spring constant 100 N/m). The volume of gas is `0.83m^(3)` and its temperature is 100K. The gas is heated so that it compresses the spring further by `0.1m`. The work done by the gas in the process is : (Take R =`8.3`J/K-mole and suppose there is no atmosphere).

One mole of an ideal gas is kept enclosed under a light piston (area = 10^(-2)m^(2)) connected by a compresses spring (spring constant 100N//m) . The volume of gas is 0.83 m^(3) and its temperature is 100K . The gas is heated so that it compresses the spring further by 0.1 m . The work done by the gas in the process is N xx 10^(-1)J . Find N . (Take R = 8.3 J//K-"mole") and suppose there is no atmosphere).

Two moles of an ideal gas are undergone a cyclic process 1-2-3-1. If net heat exchange in the process is 300J, the work done by the gas in the process 2-3 is

Four moles of an ideal gas is initially in state A having pressure 2 xx 10^(5) N//m^(2) and temperature 200 K . Keeping the pressure constant the gas is taken to state B at temperature of 400K . The gas is then taken to a state C in such a way that its temperature increases and volume decreases. Also from B to C , the magnitude of dT//dV increases. The volume of gas at state C is equal to its volume at state A . Now gas is taken to initial state A keeping volume constant. A total 1000 J of heat is withdrawn from the sample of the cyclic process . Take R=8.3 J// K// mol . The volume of gas at state C is

At 27^@C two moles of an ideal monatomic gas occupy a volume V. The gas expands adiabatically to a volume 2V . Calculate (a) final temperature of the gas (b) change in its internal energy and (c) the work done by the gas during the process. [ R=8.31J//mol-K ]

10mol of an ideal gas confined to a volume of 10L is released into atmosphere at 300K where the pressure is 1bar. The work done by the gas is (R = 0.083 L "bar" K^(-1)mol^(-1))

The pressure of a gas is 100 k Pa. if it is compressed from 1 m^(3) to 10 dm^(3) , find the work done .

One mole of an ideal gas is expanded from a volume of 3L to 5L under a constant pressure of 1 atm. Calculate the work done by the gas.

At 273K temp, and 9 atm pressure, the compressibility fog a gas is 0.9 . The volume of 1 mill-moles of gas at this temperature and pressure is :

A small block of mass 100 g is pressed again a horizontal spring fixed at one end to compress the sprign through 5.0 cm. The spring constant is 100 N/m. When released, the block moves hroizontally till it leaves the spring. Where will it hit the ground 2 m below the spring?