During an expansion of ideal gas the work done by gas is `100 J` and the heat capacity to process is found to be `+2J//^(@)C`. Find `Delta E` fo gas if the final temperature of gas is `25^(@)C` higher than its initial temperature.

In isobaric process of ideal gas (f=5) work done by gas is equal of 10J . Then heat given to gas during process:

The work done by 100 calorie of heat in isothermal expansion of ideal gas is :-

Five moles of an ideal monoatomic gas with an initial temperature of 127^@C expand and in the process absorb 1200J of heat and do 2100J of work. What is the final temperature of the gas?

During an adiabatic expansion of 2 moles of a gas, the change in internal energy was found –50 J . The work done during the process is

A certain mass of gas expanded from ( 1L, 10 atm) to (4 L, 5 atm) against a constant external pressure of 1 atm. If initial temperature of gas is 300 K and the heat capacity of process is 50 J//^(@)C . Then the enthalpy change during the process is : ( 1"L" "atm" underline ~ 100 J )

Method 2 of DeltaU Work done by a gas in a given process is -20J . Heat given to the gas is 60J. Find change in internal energy of the gas.

I mole of an ideal monoatomic gas is expanded till the temperature of the gas is doubled under the process V^(2)T=contant . The initial temperature of the gas is 400K . In terms of R find total work done in the process.

1 liter of an ideal gas (gamma =1.5) at 300k is suddenly compressed to half its original volume. (a) Find the ratio of the final pressure to the initial pressure. (b) If the original pressure is 100 kpa , find the work done by the gas in the process. (c) What is the change in internal energy? (d) What is the final temperature? (e) the gas is now colled to 300k keeping its pressure constant. Calculate the work done during the process . (f) The gas is now expanded iasothermally to achive its original volume of 1 liters. Calculate the work done by the gas .(g) Calculate the total work done in the cycle.

Method 2 of Q In a given process work done on a gas is 40 J and increases in its internal energy is 10J. Find heat given or taken to/from the gas in this process.

During an experiment an ideal gas is found to be obey an additional law PV^(3) = Constant. The initial temperature of gas is 600 K, what will be the final temperature, if gas expands to double it's volume :