in a reversible adiabatic expansion, entropy of the system

A system undergoes a reversible adiabatic process. The entropy of the system

Which of the following is zero during reversible adiabatic expansion of the gas

Statement -1: Entropy change in reversible adiabatic expansion of an ideal gas is zero. Statement-2: The increase in entropy due to volume increase just compensates the decrease in entropy due to fall in temperature.

For a reversible adiabatic expansion of an ideal gas dp/p is equal to

The magnitude of enthalpy changes for irreversible adiabatic expansion of a gas from 1 L to 2 l is Delta H_(1) and for reversible adiabatic expansion for the same expansion is Delta H_(2) . Then

The magnitudes of enthalpy changes for irreversible adiabatic expansion of a gas from 1L to 2L is ∆H_(1) and for reversible adiabatic expansion for the same expansion is ∆H_(2) . Then

The magnitude of ethalphy changes for reversible adiabatic expansion of a gas from volume V_(1) to V_(2) (in L) is DeltaH_(1) and for irreversible adiabatic expansion for the same expansion is DeltaH_(2) . Then when DeltaU_(1) and DeltaU_(2) are the changes in magnitudes for the internal energy of gas in the two expansions.

1 mole of an ideal gas at STP is subjected to a reversible adiabatic expansion to double its volume. Find the change in internal energy ( gamma = 1.4)

14 g oxygen at 0^(@)C and 10 atm is subjected to reversible adiabatic expansion to a pressure of 1atm . Calculate the work done in a. Litre atmosphere. b. Calorie (given, C_(P)//C_(V) = 1.4) .

14 g oxygen at 0^(@)C and 10 atm is subjected to reversible adiabatic expansion to a pressure of 1atm . Calculate the work done in a. Litre atomsphere. b. Calorie (given, C_(P)//C_(V) = 1.4) .