360376 How much heat energy in joules must be supplied to \(14\;g\) of \({N_2}\) at room temperature to rise its temperature by \(40^\circ C\) at constant pressure?

360377 If the degree of freedom of a gas are \(f\), then the ratio of two specific heats \(C_{P} / C_{V}\) is given by

360378 Specific heats of monoatomic and diatomic gases are same and satisfy the relation which is

360379 A gaseous mixture enclosed in a vessel consists of one mole of a gas \(A\) with \((\gamma=5 / 3)\) and another \(B\) with \((\gamma=7 / 5)\) at a temperature \(T\). The gases \(A\) and \(B\)do not react with each other and assumed to be ideal. Find the number of moles of the gas \(B\), if \(\gamma\) for the gaseous mixture is \((19 / 13)\).

360376 How much heat energy in joules must be supplied to \(14\;g\) of \({N_2}\) at room temperature to rise its temperature by \(40^\circ C\) at constant pressure?

360377 If the degree of freedom of a gas are \(f\), then the ratio of two specific heats \(C_{P} / C_{V}\) is given by

360378 Specific heats of monoatomic and diatomic gases are same and satisfy the relation which is

360379 A gaseous mixture enclosed in a vessel consists of one mole of a gas \(A\) with \((\gamma=5 / 3)\) and another \(B\) with \((\gamma=7 / 5)\) at a temperature \(T\). The gases \(A\) and \(B\)do not react with each other and assumed to be ideal. Find the number of moles of the gas \(B\), if \(\gamma\) for the gaseous mixture is \((19 / 13)\).

360376 How much heat energy in joules must be supplied to \(14\;g\) of \({N_2}\) at room temperature to rise its temperature by \(40^\circ C\) at constant pressure?

360377 If the degree of freedom of a gas are \(f\), then the ratio of two specific heats \(C_{P} / C_{V}\) is given by

360378 Specific heats of monoatomic and diatomic gases are same and satisfy the relation which is

360379 A gaseous mixture enclosed in a vessel consists of one mole of a gas \(A\) with \((\gamma=5 / 3)\) and another \(B\) with \((\gamma=7 / 5)\) at a temperature \(T\). The gases \(A\) and \(B\)do not react with each other and assumed to be ideal. Find the number of moles of the gas \(B\), if \(\gamma\) for the gaseous mixture is \((19 / 13)\).

360376 How much heat energy in joules must be supplied to \(14\;g\) of \({N_2}\) at room temperature to rise its temperature by \(40^\circ C\) at constant pressure?

360377 If the degree of freedom of a gas are \(f\), then the ratio of two specific heats \(C_{P} / C_{V}\) is given by

360378 Specific heats of monoatomic and diatomic gases are same and satisfy the relation which is

360379 A gaseous mixture enclosed in a vessel consists of one mole of a gas \(A\) with \((\gamma=5 / 3)\) and another \(B\) with \((\gamma=7 / 5)\) at a temperature \(T\). The gases \(A\) and \(B\)do not react with each other and assumed to be ideal. Find the number of moles of the gas \(B\), if \(\gamma\) for the gaseous mixture is \((19 / 13)\).