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

When a gas is heated at constant pressure, its volume changes and hence

If a gas is heated at constant pressure, its isothermal compressibility

When an ideal gas (Y = 5/3) is heated under constant pressure , then what percentage of given heat energy will be utilised in doing external work

A quantity of heat Q issupplied to a monoatomic ideal gas, which expands at constant pressure. The fraction of heat that goes into work done by the gasis

One mole of an ideal gas is heated at constant pressure of 1 atmosphere form 0^@C to 100^@C the change in the internal energy is (R = 8 J/ mol K )

The translatory internal energy of a gas per gram is

If an ideal gas is expanded at constant temperature then "____________" .

Assertion: If a gas is heated isothennally, then no part of the heat supplied is used to increase the internal energy. Reason: Change in internal energy equals work done on the system.

The specific heat of a gas at constant volume is 20J/mol ^@K . When two moles of such gas is heated through 10^@C at constant pressure, what is the increase in internal energy and work done ? (R= 8J/mol ^@ K)

743 J of heat energy is needed to raise the temperature of 5 moles of an ideal gas by 2 K at constant pressure. How much heat energy is needed to raise the temperature of the same mass of the gas by 2 K at constant volume ?