if quantity of heat 1163.4 J supplied to one mole of nitrogen gas , at room temperture at constant pressure , then the rise in temperature is

For one mole of a diatomic gas, the ratio of heat transfer at constant pressure to work done by the gas is

If 21 J of heat energy is supplied to an ideal diatomic gas at constant pressure, then the change in its energy is

The amount of heat supplied to 4xx10^(-2) kg of nitrogen at room temperature to rise its temperature by 50^(@)C at constant pressure is (Molecualr mass of nitrogen is 28 and R= 8.3 J mol^(-1)K^(-1))

Cp and Cv are molar specific heats of a gas and R is a gas constant, n moles of this gas are heated at constant pressure so that its temperature rises by dT. External work done will be

How much heat must be supplied to nitrogen in a process of heating at constant pressure that the gas may perform 2 joules of work?

A quantity of heat Q is supplied to a monoatomic ideal gas which expands at constant pressure. The fraction of heat that goes into work done by the gas ((W)/(Q)) is

What amount of heat must be supplied to 2.0 xx 10^(-2) kg of nitrogen (at room temperature ) to raise the temperature by 45^(@)C at constant pressure. Molecular mass of N_(2) = 28 , R= 8.3 J "mol"^(-1) K^(-1) .