The heat change at constant volume `(q_(v))` is equal to

The heat absored at constant volume is equal to the system's change in

For an ideal monoatomic gas, molar heat capacity at constant volume (C_(v)) is

The heat change at constant volume for the decomposition of silver (I) oxide is found to be 30.66 kJ . The heat change at constant pressure will be

Near the room temperature the molar specific heat at constant volume is equal to ________ J mol^-1 K^-1 .

If the heat change at constant volume for decomposition of silver oxide is 80.25 kJ, what will be the heat change at constant pressure ?

Assertion (A): For a particular reaction, heat of combustion at constant pressure (q_(P)) is always greater than that at constant volume (q_(V)) . Reason (R ) : Combustion reactions are invariably accomplished by increase in number of moles.

An ideal gas with heat capacity at constant volume C_(V) undergoes a quasistatic process described by P V^(alpha) in a P-V diagram, where alpha is a constant. The heat capacity of the gas during this process is given by-

An ideal gas is made to undergo a process T = T_(0)e^(alpha V) where T_(0) and alpha are constants. Find the molar specific heat capacity of the gas in the process if its molar specific heat capacity at constant volume is C_(v) . Express your answer as a function of volume (V).