Three samples of the same gas A, B and C`(gamma=3//2)` have initially equal volumes . Now the volume of each sample is doubled. The process is adiabatic for A isobaric for B and isothermal for C. If the final pressures are equal for all three samples, the ratio of their initial pressuress are

Three samples of the same gas A,B and C (gamma=3//2) have initially equal volume. Now the volume of each sample is doubled. The process is adiabatic for A. Isobaric for B and isothermal for C. If the final pressures are equal for all three samples, find the ratio of their initial pressures

Three samples of the same gas A,B and C (gamma=3//2) have initially equal volume. Now the volume of each sample is doubled. The process is adiabatic for A. Isobaric for B and isothermal for C. If the final pressures are equal for all three samples, find the ratio of their initial pressures

Three samples A, B and C of the same gas (gamma = 1.5) have equal volumes and temperatures. The volume of each sample is doubled, the process being isothermal for A, adiabtic for B and isobaric for C. If the final pressures are equal for the three samples, Find the ratio of the initial pressures.

In a process on a system, the initial pressure and volume are equal to final pressure and volume, then

A gas for which gamma=1.5 is suddenly compressed to 1//4 th of the initial volume. Then the ratio of the final to initial pressure is

For an ideal gas of fixed amount, the initial pressure and volume are equal to the final pressure and volume

The volume of an ideal gas (gamma = 1.5 ) is changed adiabatically from 4.00 liters to 3.00 liters . Find the ratio of (a) the final pressure to the initial pressure and (b) the final temperature to the initial temperature.

There are two statement of same gas initially under similar initial state. Gases of both the samples are expanded. I^(st) sample using reversible isothermal process and II^(nd) sample using reversible adiabatic process till final pressure of both the samples becomes half of initial pressure. Then:

There are two statement of same gas initially under similar initial state. Gases of both the samples are expanded. I s t sample using reversible isothermal process and I I n d sample using reversible adiabatic process till final pressure of both the samples becomes half of initial pressure. Then: