n moles of a gas are filled in a container at temperature T. If the gas is slowly and isothermally compressed to half its initial volume, the work done by the atmosphere on the gas is

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

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

Two moles of an ideal gas is contained in a cylinder fitted with a frictionless movable piston, exposed to the atmosphere, at an initial temperature T_(0) . The gas is slowly heated so that its volume becomes four times the initial value. The work done by gas is

Two moles of an ideal gas is contained in a cylinder fitted with a frictionless movalbe piston, exposed to the atmosphere, at an initial temperature T_(0) . The gas is slowly heated so that its volume becomes fout times the initial value. The wor done by gas is

One mole of an ideal gas expands isothermally to double its volume at 27^(@)C . The work done by the gas is nearly

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 ratio of work done by the gas to the change in internal energy of the gas is

One mole of ideal gas expands isothermally to double its volume at 27^(@)C . Then the work done by the gas is nearly