the pressure of a gas change linearly with volume from 10kPa, 200 cc to 50 kPa, 50 cc. (a) calculate the work done by the gas, (b) what is the change in the internal energy of the gas ?

the pressure of a gas change linearly with volume from 10kPa, 200 cc to 50 kPa, 50 cc. calculate the work done by the gas.

the pressure of a gas change linearly with volume from 10kPa, 200 cc to 50 kPa, 50 cc. (a) calculate the work done by the gas, (b) If no heat is supplied or extracted from the gas, what is the change in the internal energy of the gas ?

The pressure of a gas changes linearly with volume from 10 kPa, 200 cc to 50 kPa, 50 cc. (a) Calculate the work done by the gas. (b) If no heat is supplied or extracted from the gas, what is the changes in the internal energy of the gas?

In an adiabatic process 90 J of work is done on the gas. The change in internal energy of the gas is

In a thermodynamics process, 300 joule of heat is supplied to a gas and 200 joule of work is done by the gas. What is the change in internal energy of the system?

For a given ideal gas 6 xx 10^(5) J heat energy is supplied and the volume of gas is increased from 4 m^(3) to 6 m^(3) at atmospheric pressure . Calculate (a) the work done by the gas ( b) Change in internal energy of the gas ( c) graph this process in PV and TV diagram

400 J of work is done on a gas to reduce its volume by compression adiabatically. What is the change in internal energy of the gas?

400 J of work is done on a gas to reduce its volume by compression adiabatically. What is the change in internal energy of the gas?

A given sample of an ideal gas (gamma = 1.5 ) is compressed adiabatically from a volume of 150 cm ^(3) to 50 cm ^(3) . The initial pressure and the initial temperature are 150 kpa and 300K . Find (a) the number of moles of the gas in the sample, (b) the molar heat capacity at constant volume, (c) the final pressure and temperature, (d) the work done by the gas in the process and (e) the change in internal energy of the gas .

A given sample of an ideal gas (gamma = 1.5 ) is compressed adiabatically from a volume of 150 cm ^(3) to 50 cm ^(3) . The initial pressure and the initial temperature are 150 kpa and 300K . Find (a) the number of moles of the gas in the sample, (b) the molar heat capacity at constant volume, (c) the final pressure and temperature, (d) the work done by the gas in the process and (e) the change in internal energy of the gas .