A monatomic ideal gas sample is given heat Q. One half of this heat is used as work done by the gas and rest is used for increasing its internal energy. The equation of process in terms of volume and temperature is

During a process carried on an ideal gas it was found that eta (lt 1) times the heat supplied to the gas is equal to increase in internal energy of the gas. Write the process equation in terms of pressure (P) and volume (V) of the gas. It is given that ratio of specific heats for the gas is (C_(P))/(C_(V)) = gamma .

A monatomic ideal gas is heated at constant pressure. How much fraction of heat is used to increase internal energy?

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

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.

An ideal diatomic gas is expanded so that the amount of heat transferred to the gas is equal to the decrease in its internal energy. If in the process, the initial temperature of the gas be T_(0) and the final volume by 32 times the initial volume, the work done ( in Joules ) by the gas during the process will be

An ideal diatomic gas is expanded so that the amount of heat transferred to the gas is equal to the decrease in its internal energy. If in the above process, the initial temperature of the gas be T_(0) and the final volume by 32 times the initial volume, the work done ( in joules ) by the gas during the process will be

The molar heat capacity for an ideal monatomic gas is 3R.If dQ is the heat supplied to the gas and dU is the change in its internal energy then for the process the ratio of work done by the gas and heat supplied is equal to

An ideal mono-atomic gas of given mass is heated at constant pressure. In this process, the fraction of supplied heat energy used for the increase of the internal energy of the gas is