Calculate the change in molar Gibbs energy of carbon dioxide gas at `20^(@)` C when it is isothermally compressed from 1.0 bar to 2.0 bar.

The change in internal energy when 2.0 mole of an ideal gas at 25^(@)C are compressed isothermally and reversibly from 1 bar to 2 bar is

Calculate Delta U , q and w when 2.0 mol of an ideal gas at 25^(@)C are compressed isothermally and reversibly from 1.0 bar to 10.0 bar.

What will be change in molar Gibbs free energy of H_(2)O(l) at 300 K constant temperature if it is compressed from 10 bar to 20 bar : [1 bar L=100 J]

A quantity of 4.0 moles of an ideal gas at 20^(@)C expands isothermally against a constant pressure of 2.0 atm from 1.0 L to 10.0L. What is the entropy change of the system (in cals)?

A quantity of 4.0 moles of an ideal gas at 20^(@)C expands isothermally against a constant pressure of 2.0 atm from 1.0 L to 10.0L. What is the entropy change of the system (in cals)?

The density of Carbon dioxide at 2.0 atm pressure and 27^0C is :

Calculate DeltaS for 3 mole of a diatomic ideal gas which is heated and compressed from 298 K and 1 bar to 596 K and 4 bar: [Given: C_(v,m)(gas)=(5)/(2)R,"ln"(2)=0.70,R=2"cal K^(-1)mol^(-1) ]

Calculate DeltaS for 3 mole of a diatomic ideal gas which is heated and compressed from 298 K and 1 bar to 596 K and 4 bar: [Given: C_(v,m)(gas)=(5)/(2)R,"ln"(2)=0.70,R=2"cal K^(-1)mol^(-1) ]

Calculate DeltaS for 3 mole of a diatomic ideal gas which is heated and compressed from 298 K and 1 bar to 596 K and 4 bar: [Given: C_(v,m)(gas)=(5)/(2)R,"ln"(2)=0.70,R=2"cal K^(-1)mol^(-1) ]

Calculate Delta S for 3 moles of a diatomic ideal gas which is heated and compressed from 298K and 1bar to 596K and 4 bar