In a isobaric process the work done by a di-atomic gas is 10 J , the heat given to the gas will be :
During the process AB of an ideal gas
When heat in given to a gas in an isobaric process, then
A diatomic gas does 80 J of work when expanded isobarically. The heat given to the gas during this process is
A diatomic gas does 100 J of work when it is expanded isobarically. The heat given to the gas during this process is
In a thermodynamic process on an ideal diatomic gas, work done by the gas is eta times. The heat supplied (eta lt 1) . The molar heat capacity of the gas for the process is
A diatomic gas done 80J work when expanded isobarically. Find the heat given to the gas during this process?
A gas undergoes change from state A to state B. In this process, the heat absorbed and work done by the gas is 5 J and 8 J, respectively. Now gas is brought back to A by another process during which 3 J of heat is evolved. In this reverse process of B to A:
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.
