One mole of an ideal and monoatomic gas is expanded reversibly and isothermally at `298K` temperature according to the given diagram, calculate work done.

2mol of an idela gas expand reversibly and isothermally at 25^(@)C from 2L to 10L . Calculate the work done by the gas in calories.

One mole of and ideal monoatomic gas is compressed isothermally in a rigid vessel to double its pressure at room temperature, 27^(@)C . The work done on the gas will be :

One mole of an ideal monoatomic gas expands reversibly and adiabatically from a volume of x litre to 14 litre at 27^(@) C. Then value of x will be [Given, final temperature 189 K and C_(V) = 3/2 R].

Two moles of a gas expand reversibly and isothermally at temperature of 300K. Initial volume of the gas is 1 L while the final pressure is 4.926 atm . The work done by gas is

One mole of an ideal gas is allowed to expand reversible and adiabatically from a temperatureof 27^(@)C) if the work done during the process is 3 kJ,the final temperature will be equal to (C_(v)=20JK^(-1))

One mole of an ideal monoatomic gas is taken along the path ABCA as shown in the PV diagram. The maximum temperature attained by the gas along the path BC is given by :

5 mole of an ideal gas of volume is expanded against vaccum to make its volume 2 times, then work done by the gas is:

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

One mole of an ideal monoatomic gas undergoes a cyclic process as shown in figure . Temperature at point 1 = 300K and process 2-3 is isothermal . . Net work done by gas in complete cycle is

Four moles of an ideal gas expanded spontaneously in vacuum. The work done will be