What amount of heat is to be supplied to 14 g of nitrogen in order to increase the temperature by `40^(@)C` at constant pressure? Molecular weight of nitrogen `=28 and R = 8.3 J cdot mol^(-1) cdot K^(-1)`.

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

What would be the amount of heat required to increase the temperature of 1 g of water by 1^(@)C ?

What is the heat needed (in J) to increase the temperature of 5 g water by 1^@C ?

A gas of density 0.00125 g cdot cm^(3) , volume 8L at 0^(@)C temperature and 1 atm pressure is supplied with 30 cal of heat to raise its temperature to 15^(@)C at constant pressure. Determine the specific heat of the gas at constant pressure and at constant volume. Given, R = 2 cal cdot mol^(-1) cdot^(@)C^(-1) .

10 mol of an ideal gas is taken through an isothermal process in which the volume is compressed from 40 L to 30 L. If the temperature and the pressure of the gas are 0^(@)C and 1 atm respectively. Find the work done in the process. Given: R = 8.31 J cdot mol^(-1) cdot K^(-1) .

70 cal of heat is required to increase the temperature of 2 mol of an ideal diatomic gas at constant pressure from 40^(@)C to 45^(@)C . How much heat will be required to increase the temperature of that gas by the same amount at constant volume? R = 2 cal cdot mol^(-1) cdot K^(-1) .

The specific heat of oxygen gas at constant volume is 0.155 cal cdot g^(-1) cdot^(@)C^(-1) . What is its specific heat at constant pressure? Given, the molecular mass of oxygen = 32 and R = 2 cal cdot mol^(-1) cdot^(@)C^(-1) .

The work of 146 kJ is performed in order to compress one k mole of a gas adiabatically and in this process the temperature of the gas increases by 7^(@)C . Prove that the gas is diatomic. R = 8.3 J cdot mol^(-1) cdot K^(-1) .