Statement-1: For a gaseous system `C_(p)` is always greater than `C_(v)`
Statement-2: Work done by a gas at constant volume is zero.

Pressure volume (PV) work done by an ideal gas system at constant volume is

Statement-1 : The mass fraction of solute in a solution is always greater than its mole fraction Statement-2 : Mole fraction of solvent in an aqueous solution of ethanol must be greater than that of solute

STATEMENT-1 : Work done to move a charge on the surface of metal solid charged cylinder is always zero. and STATEMENT-2 : Work done to move a charge on an equipotential surface is zero.

At a given temperature, the specific heat of a gas at constant pressure is always greater than its specific heat at constant volume.

C_p is always greater than C_v for a gas, which of the following statements provide, partly or wholly, the reason for this? (i) No work is done by a gas at constant volume (ii) When a gas absorbs heat at constant pressure, its volume must change (iii) For the same change in temperature, the internal energy of a gas changes by a smaller amount at constant volume that at constant pressure (iv) The internal energy of an ideal gas is a function only of its temperature

Statement 1: Heat supplied to a gas is process is 100 J and work done by the gas in the same process is 120 J, then pressure of he gas in the process should increase. because Statement2: Work done by the gas is greater than the heat supplied to the gas. Hence, internal energy of the gas should decrease.

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.

Statement-1: Temperature of a system can be increased without supplying heat. Statement-2: If the initial volume of system is equal to final volume in a process then work done is necessarily zero. Statement-3: If an adiabatic curve for a gas intersect with an isothermal curve for the same gas then at the point of intersection, the ratio of slope of the adiabatic and the isothermal curve is gamma .

StatementI: Work done by a gas in isothermal expansion is more than the work done by the gas in the same expansion adaibatically. Statement II: Temperature remains constant in isothermal ecpansion but not in adiabatic expansion.

For an ideal gas , the specific heat at constant pressure C_p is greater than the specific heat at constant volume C_v This is because