By increasing temperature and keeping the volume constant, the pressure of a gas will

The average speed of gas molecules is v at pressure P, If by keeping temperature constant the pressure of gas is doubled, then average speed will become

The specific heart of a gas at constant volume is 21.22 j// mol^@ C . If the temperature is increased by 1^@ C keeping the volume constant, the change in its internal energy for 1 mole of gas will be :-

A gas volume 100 cc is kept in a vessel at pressure 10.4 Pa maintained at temperature 24^(@)C . Now, if the pressure is increased to 105Pa , keeping the temperature constant, then the volume of the gas becomes

The pressure of a gas at -173^(@) C is 1 atmosphere. Keeping the volume constant, to what temperature should the gas be heated so that its pressure becomes 2 atmosphere?

The variation of pressure with volume of the gas at different temperatures can be graphically represented as shown in figure. On the basis of this graph answer the following question. (i) How will the volume of a gas change if its pressure is increased at constant temperature ? (ii) At a constant pressure, how will the volume of a gas change if the temperature is increased from 200 K to 400 K ?

A gas of volume 100 cc, is kept in a vessel at pressure 10^(4) Pa maintained at temperature of 24^(@)C . If now the pressure is incresed to 10^(5) Pa, keeping the temperature constant, then the volume of the gas becomes.

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 eqaul to its volume at statem 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 A total 1000 J of heat is withdrawn from the sample of the cyclic process .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

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 eqaul to its volume at statem 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 work done in path B to C is