`4.48 L` of an ideal gas at `STP` requires 12 cal to raise its temperature by `15^(@)C` at constant volume. The `C_(P)` of the gas is

5.6 litre of an unknown gas at NTP requires 12.5 calorie to raise its temperature by 10^(@)C at constant volume Calculate (a) C_(v) of gas (b) atomicity of gas .

5.6dm^(3) of an unknown gas at S.T.P requires 52.25J of heat to raise its temperature by 10^(@)C at constant volume. Calculate C_(V),C_(P) and atomicity of the gas

5.6dm^(3) of an unknown gas at S.T.P. requires 52.25 J of heat to raise its temperature by 10^(@)C at constant volume. Calculate volume. Calculate C_(v) , C_(p) and atomicity of the gas.

One mole of an ideal gas requires 207 J heat to raise its temperature by 10 K when heated at constant pressure. If the same gas is heated at constant volume to raise the temperature by the same 10 K, the heat required will be (R, the gas constant = 8.3 JK^(-1) mol^(-1) ):

One mole of an ideal gas requires 207J heat to raise the temperature by 10 K, when heated at constant pressure. If the same gas is heated at constant volume to raise the temperature by 10 K, then heat required is [given gas constant. R = 8.3 1/(mol -K)]

A certain amount of an ideal monatomic gas needs 20J of heat energy to raise its temperature by 10^@C at constant pressure.The heat needed for the same temperature rise at constant volume will be

A certain amount of an ideal monatomic gas needs 20 J of heat energy to raise its temperature by 10°C at constant pressure. The heat needed for the same temperature rise at constant volume will be