An ideal gas has initial volume V and pressure P . To triple it a volume the minimum work done will be in

An ideal gas has initial volume V and pressure p. In doubling its volume the minimum work done will be in the process (of the given processes)

An ideal gas of volume V and pressure P expands isothermally to volume 16 V and then compressed adiabatically to volume V . The final pressure of gas is [ gamma = 1.5]

An ideal gas has initial pressure of 3 presssure units and an initial volume units the table gives the final pressure and volume of the gas ( in those same units ) in five processes which processes start and end on the same isotherm ?

An ideal gas has pressure P, volume V and temperature T. Select the correct option.

An ideal gas having initial pressure P, volume V and temperature T is allowed to expands adiabatically until its volume becomes 5.66V while its temperature falls to T/2. (i) How many degrees of freedom do the gas molecules have? Obtain the work done by the gas during the expansion as a function of the initial pressure P and volume V.

An ideal gas having initial pressure p, volume V and temperature T is allowed to expand adiabatically until its volume becomes 5.66V, while its temperature falls to T//2 . (a) How many degrees of freedom do the gas molecules have? (b) Obtain the work done by the gas during the expansion as a function of the initial pressure p and volume V. Given that (5.66)^0.4=2

5 mole of an ideal gas of volume is expanded against vaccum to make its volume 2 times, then work done by the gas is:

An ideal gas with pressure P, volume V and temperature T is expanded isothermically to a volume 2V and a final pressure P_i, If the same gas is expanded adiabatically to a volume 2V, the final pressure P_a. The ratio of the specific heats of the gas is 1.67. The ratio (P_a)/(P_1) is .......