`3.0` moles of an ideal gas at `27^(@)C` is compressed at constant temp. reversibly form a volume of `20L` to `10L` slowely increasing the external pressure calculate work done on the gas `w,q,DeltaU` and `DeltaH`.

3.0 moles of an ideal gas at 27^(@)C is compressed at constant temp. reversibly form a volume of 20L to 10L slowly increasing the external pressure calculate work done on the gas w,q,DeltaU and DeltaH .

2mol of an ideal gas at 25^(@)C is allowed to expand reversibly at constant temperature (isothermally) form a volume of 2L to 10L by reducing the pressure slowely. Calculate the work done by the gas (w), DeltaU, q , and DeltaH .

2mol of an ideal gas at 25^(@)C is allowed to expand reversibly at constant temperature (isothermally) form a volume of 2L to 10L by reducing the pressure slowely. Calculate the work done by the gas (w), DeltaU, q , and DeltaH .

5mol of an ideal gas at 27^(@)C expands isothermally and reversibly from a volume of 6L to 60L . The work done in kJ is

5mol of an ideal gas at 27^(@)C expands isothermally and reversibly from a volume of 6L to 60L . The work done in kJ is

5mol of an ideal gas at 27^(@)C expands isothermally and reversibly from a volume of 6L to 60L . The work done in kJ is

2 mol of an ideal gas at 27^(@) C expand isothermally and reversibly from a volume of 2L to 20L. The work done (in KJ) by the gas is :-

2 mol of an ideal gas at 27^(@) C expand isothermally and reversibly from a volume of 4L to 40L. The work done (in KJ) by the gas is :-

If x mole of ideal gas at 27^(@)C expands isothermally and reversibly from a volume of y to 10 y, then the work done is

If x mole of ideal gas at 27^(@)C expands isothermally and reversibly from a volume of y to 10 y, then the work done is