n moles of a gas expands from volume `V_(1)` to `V_(2)` at constant temperature T. The work done by the gas is

Starting with the same initial conditions an ideal gas expands from volume V_(1)" to "V_(2) in three different ways. The work done by the gas is W_(1) if the process is purely isothermal, W_(2) if purely isobaric and W_(3) if purely adiabatic. then

A gas can expand from 100 ml to 250 ml under a constant pressure of 2 atm. The work done by 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

A gas expands from 40 litres to 90 litres at a constant pressure of 8 atmosphers. Work done by the gas during the expansion is

Calculate work done when 1 mole of an ideal gas is expanded reversibly from 20 L to 40 L at a constant temperature of 300 K.

A gas expands isothermally and reversibly. The work done by the gas is

One mole of a gas expands such that its volume 'v' changes with absolute temperature 'T' in accordance with the ralation V = HT^(2) where 'K' is a constant . If the temperature of the gas changes by 60^(@) C , then work done by the gas is (R is universal gas constant ) .