Enthalpy (H) is equal to

Enthalpy is

Statement-1 : Enthalpy (H) and entropy (S) both are extensive properties. And Statement-2 : Both are independent of mass.

Enthalpy change equal internal energy change when

Standard molar enthalpy of formation of CO_(2) is equal to :

The enthalpies of formation of N_2O and NO are 28 and 90 kj mol^(-1) respectively. The enthalpy of the reaction, 2N_2O(g)+O_2(g) rarr 4NO(g) is equal to

Enthalpy of sublimation of a substance is equal to :

Enthalpy of sublimation of a substance is equal to

Enthalpy of 1 mole monoatomic ideal gas is equals to :-

Assertion :- Absolute value of enthalpy can not be determined. Reason :- Enthalpy is defined as H = E + PV, and value of internal energy can not be determined absolutely therefore absolute value of enthalpy can not be determined.

Enthalpy is an extensive property. In general, if enthalpy of an overall reaction A rarr B along one route is Delta_(r) H " and Delta_(r) H_(1), Delta_(r) H_(2), Delta_(r) H_(3) ..... Represent enthalpies of intermediate reactions leading to product B. What will be the relation between Delta_(r)H overall reaction and Delta_(r)H_(1), Delta_(r)H_(2) ... etc for intermediate reaction.