In a process on a system in closed container, the initial pressure and volume are equal to the final pressure and volume :

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

In a process on a system, the initial pressure and volume are equal to the final pressure and volume (i) The initial temperature must be equal to the final temperature (ii) The initial internal energy must be equal to the final internal energy (iii) The net heat given to the system in the process must be zero. (iv) The net work done by the sytem in the process must be zero.

In a process on a system, the initial pressure and volume.

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 ?

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

A gas is filled in a cylinder with initial pressure P, initial volume V. When the pressure is increased by dP and volume reduces by dV. The bulk modulus is

If at 60^(@) and 80 cm of mercury pressure a definite masss of a gas is compressed slowly, then the final pressure of the gas if the final volume is half of the initial volume (gamma =(3)/(2)) is

A container contains air above liquid water. Total pressure was 800 torr. What will be the final pressure if volume is doubled ? (Aqueous tension = 40 torr).

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.