SPECIFIC HEAT OF A GAS AT CONSTSNT PRESSURE (CP)

SPECIFIC HEAT OF A GAS AT CONSTSNT VOLUME (CV)

The molar specific heats of an ideal gas at constant pressure and volume arc denoted by C_P and C_V respectively. If gamma = (C_P)/(C_V) and R is the universal gas constant, then C_V is equal to

Heat (q) || Sign Convention || Unit Calculation OF Heat || total/Molar/Specific Heat Capacity || Process Dependent Heat Capacity (Cp,Cv) || Cp and Cv OF Ideal Gas || Degree OF Freedom

C_p and C_v are specific heats at constant pressure and constant volume respectively. It is observed that C_p - C_v = a for hydrogen gas C_p = C_V = b for nitrogen gas The correct relation between a and b is:

C_p and C_v are specific heats at constant pressure and constant volume respectively. It is observed that C_p - C_v = a for hydrogen gas C_p = C_V = b for nitrogen gas The correct relation between a and b is:

Show that for an ideal gas C_p - C_v = R where C_p and C_v are the heat capacity at constant pressure and constant volume respectively.

Specific Heat |Molar Specific Heat Capacity At Constant -(Volume,Pressure)

For hydrogen gas C_p-C_v=a and for oxygen gas C_p-C_v=b , C_p and C_v being molar specific heats. The relation between a and b is