two samples 1 and 2 are initially kept in the same state. the sample 1 is expanded through an isothermal process where as sample 2 through an adiabatic process up to the same final volume.Let `p_(1)` and `p_(2)` be the final pressure of the samples and 2 respectively in the previous question then.

Let T_a and T_b be the final temperatures of the samples A and B respectively in the previous question.

Figure shows two processes A and B on a system.Let DeltaQ_(1) and DeltaQ_(2) be the heat given to the system in processes A and B respectively. Then

consider two processes on a system as shown in fig the volumes in the initial stage are the same in the two processes and the volume in the final stage are also the same.Let DeltaW_(1) and DeltaW_(2) be the work done by the system in the processes A and B respectively.

The value of C_(p) - C_(v) is 1.09R for a gas sample in state A and is 1.00R in state B . Let T_(A),T_(B) denote the temperature and p_(A) and p_(B) denote the pressure of the states A and B respectively. Then

A gas is compressed isothermally to half its initial volume.The same gas is compressed separately through an adiabatic process until its column is again reduced to half Then.

A mass of ideal gas at pressure P is expanded isothermally to four times the original volume and then slowly compressed adiabatically to its original volume. Assuming gamma(=C_(P)//C_(V)) to be 1.5, find the new pressure of the gas.

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.

A monatomic gas at a pressure P, having a volume V expands isothermally to a volume 2V and then adiabatically to a volume 16V. The final pressure of the gas is (Take gamma = 5/3 )

An ideal gas has pressure p_(0) , volume V_(0) and temperature T_(0) . It is taken an isochoric process till its pressure is doubled. It is now isothermally expanded to get the original pressure. Finally , the gas is isobarically compressed to its original volume V_(0) . (a) Show the process on a p-V diagram. (b) What is the tempertaure in the isothermal part of the process? (c) What is the volume at the end of the isothermal part of the process?