An ideal gas A and a real gas B have their volumes increases from `V to 2V` under isothermal condtitions. The increase in internal energy

An ideal gas with adiabatic exponent ( gamma=1.5 ) undergoes a process in which work done by the gas is same as increase in internal energy of the gas. Here R is gas constant. The molar heat capacity C of gas for the process is:

Assertion : In an isothemal expansion the gas absorbs heat and does work . Reason: In an isothermal process there is no change in internal energy of an ideal gas.

A weightless piston divides a thermally insulated cylinder into two parts of volumes V and 3V.2 moles of an ideal gas at pressure P = 2 atmosphere are confined to the part with volume V =1 litre. The remainder of the cylinder is evacuated. The piston is now released and the gas expands to fill the entire space of the cylinder. The piston is then pressed back to the initial position. Find the increase of internal energy in the process and final temperature of the gas. The ratio of the specific heats of the gas, gamma =1.5 .

If the potential of a capacitor having capacity of 6 muF is increased from 10 V to 20 V,then increase in its energy will be

An ideal gas is initially at temperature T and volume V. Its volume is increased by DeltaV due to an increase in temperature DeltaT, pressure remaining constant. The quantity delta=(DeltaV)/(VDeltaT) varies with temperature as

An ideal gas is initially at temperature T and volume V. ITS volume is increased by DeltaV due to an increase in temperature DeltaT , pressure remaining constant. The quantity delta = DeltaV//V DeltaT varies with temperature as

The internal energy of an ideal gas increases when it

The volume of a monatomic ideal gas increases linearly with pressure, as shown in Fig. Calculate (a) increase in internal energy, (b) work done by the gas and (c ) heat supplied to the gas.

Two moles of a gas at temperature T and volume V are heated to twice its volume at constant pressure. If (C _(p))/(C _(v)) = gamma then increase in internal energy of the gas is-

When an ideal diatomic gas is heated at constant pressure, the fraction of the heat energy supplied, which increases the internal energy of the gas, is