The entropy of `v = 4.0` moles of an ideal gas increases by `Delta S = 23 J//K` due to the isothermal expansion. How many times should the volume `v = 4.0` moles of the gas be increased ?

The pressure p and volume V of an ideal gas both increase in a process.

Find the entropy increment of v = 2.0 moles of an ideal gas whose adiabatic exponent gamma = 1.30 if, as a result of a certain process, the gas volume increased alpha = 2.0 times while the pressure dropped beta = 3.0 times.

The pressure ( P ) and volume ( V ) of an ideal gas both increase in a process:

Suppose 0.5 moles of an ideal gas undergoes an isothermal expansion as energy is added to it as heat Q. graph shows the final volume V_(f) versus Q. the temperature of the gas is (use In 9 = 2 and R = (25)/(3) J//mol-K)

If 4 moles of an ideal gas at 300 K occupy volume of 89 . 6 L , then pressure of the gas will be

Temperature of 4 moles of gas increases from 300 K to 500 K find C_v if DeltaU = 5000 J .

One of the two thermally insulated vessels inferconnected by a tube with a valve contains v = 2.2 moles of an ideal gas. The other vessel if evacuated. The valve having been opened, the gas increased its volume n = 3.0 times. Find the entropy increment of the gas.