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` )

5 mol of oxygen is heated at constant volume from 10^@C to 20^@C . Find the change in internal energy of the gas

One mole of a gas expands by 3L against a constant pressure of 3 atmosphere work done in calories

One mole of a gas expands by 3L against a constant pressure of 3 atmosphere work done in_______ L-atmosphere

One mole of a gas expands by 3L against a constant pressure of 3 atmosphere. calculate work done in Joules

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

1 litre of an ideal gas at 27 °C is heated at a constant pressure to 297 °C. The final volume is approximately

A gas receives an amount of heat equal to 110 J and performs 40J of work . The change in the internal energy of the gas is

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)

One mole of an ideal gas expands isothermally at 300 K from 1 L to 101 L at constant pressure of 1 atmosphere. The work done during this change is ___________ . (1 L-atm =24.2 cal)

70 calories of heat is required to raise the temperature 2 moles of an ideal gas at constant pressure from 30^@C to 35^@C . What is the amount of heat required to raise the temperature of the same gas from 30^@C to 35^@C at constant volume?