An ideal gas undergoes a reversible isothermal expansion from a state i to f. The change in entropy `Delta S (i rarr f)` is

In reversible isothermal expansion of an ideal gas :

An ideal gas undergoes a reversible isothermal expansion from state I to state II followed by a reversible adiabatic expansion from state II to state III. The correct plot(s) representing the changes from state I to state III is(are)

An ideal gas undergoes isothermal expansion at constant pressure . During the process.

Internal enregy change during a reversible is isothermal expansion of an ideal is :-

Five moles of an ideal gas undergoes reversible expansion from 1 L to 4 L at 27°C. The work done and enthalpy change for the process respectively are

A certain mass of an ideal gas undergoes a reversible isothermal compression. When compared with their initial state, its molecules will have the same (i) root mean square velocity (ii) mean momentum (iii) mean kinetic energy

Two moles of an ideal gas have an initial kelvin temperature T_i and absolute pressure P_i the gas undergoes a reversible isothermal compression from an initial volume V_i to a final volume 0.5 V_i How much heat is exchanged with the environment? If heat is exchanged, is it absorbed or released?