Comprehension-2
A mono atomic ideal gas is filled in a non conducting container. The gas can be compressed by a movable non conducting piston. The gas is compressed slowly to `12.5%` of its initial volume.
The ratio of work done by the gas to the change in internal energy of the gas is

Comprehension-2 A mono atomic ideal gas is filled in a non conducting container. The gas can be compressed by a movable non conducting piston. The gas is compressed slowly to 12.5% of its initial volume. The percentage increases in the temperature of the gas is

Comprehension-2 A mono atomic ideal gas is filled in a non conducting container. The gas can be compressed by a movable non conducting piston. The gas is compressed slowly to 12.5% of its initial volume. The ratio of initial adiabatic bulk molulus of the gas to the finla value of adiabatic bulk modulus of the gas is

An ideal gas is compressed in a closed container its U

An ideal gas is compressed in a closed container its U

The internal energy of non-ideal gas depends on

A mono-atomic gas is taken along path AB as shown. Calculate change in internal energy of the gas.

A sample of diatomic gas is heated at constant pressure. If an amount of 280 J of heat is supplied to gas, find ratio of work done by gas and change in internal energy

In thermodynamic process, 200 Joules of heat is given to a gas and 100 Joules of work is also done on it. The change in internal energy of the gas is

n moles of a gas filled in a container temperature T is in thermodynamic equilibrium initially. If the gas is compressed slowly and isothermally to half its initial volume volume the work done by the atmosphere on the piston is :

An ideal gas is compressed to half its initial volume by means of several peocesses. Which of the process results in the maximum work done on the gas ?