The heat of formation of `NH_(3)(g)` is `-46 " kJ mol"^(-1)`. The `DeltaH` (in `" kJ mol"^(-1)`) of the reaction, `2NH_(3)(g)rarrN_(2)(g)+3H_(2)(g)` is

The enthalpy of formation of ammonia is -46.0 KJ mol^(-1) . The enthalpy change for the reaction 2NH_3 rarr N_2 + 3H_2 is

If the standard molar enthalpy of formation of CaO_((s)), CO_(2(s)) and CaCO_(3(s)) is -635, -393 and -1207kJ "mol"^(-1) respectively, the Delta_r H^(o.) in kJ mol^(-1) for the reaction CaCO_(3(s)) rarr CaO_((s)) + CO_(2(g)) is

Given Delta H_r ^@ for CO_2(g) , CO_(g) and H_2O(g) are -393.5, -110.5 and -241.8 KJ mol^-1 respectively. The Delta H_r^@ (in KJ mol^-1] for the reaction CO_2(g) + H_2(g) rightarrow CO_(g) + H_2O(g) is

The first of lithium is 5.41 eV and electron affinity of Cl is -3.61 eV . Calculate Delta H in kJ mol^(-1) for the reaction: Li_(g) + Cl_(g) rarr Li_(g)^(+) + Cl_(g)^(-) .

Enthalpy of ammonia and water are -46.19KJ.mol^(-1) and -285.9KJ.mol^(-1) . Calculate AH for the reaction, 4NH_(3)(g)+3O_(2)(g)to 2N_(2)(g)+6H_(2)O(l) .

If DeltaH_(f)^(0) " for" H_(2)O_(2(l)) and H_(2)O_((l)) " are " -188 kJ mol^(-1) and -286 kJ mol^(-1) , what will be the enthalpy change of the reaction 2H_(2)O_(2(l)) rarr 2H_(2)O_((l)) + O_(2(g)) = ?

(A) The heat of formation of NH_(3) is -46.1 KJ/mole (R ) NH_(3) possess intermolecular hydrogen bonds in liquid state