(A) As temperature increases, heat of reaction also increases for exothermic as well as endothermic reactions. ltBrgt (R) `DeltaH_("reaction")` varies according to the relation:
`(DeltaH_(2)-DeltaH_(1))/(T_(2)-T_(1))=DeltaC_(P)`.

The rates of which reactions are increased when the temperature s raised? (P) endothermic reactions (Q) exothermic reactions

Define DeltaH .What will be the sign of DeltaH in (i) exothermic reaction and (ii) endothermic reaction?

For a reversible exothermic reaction K_(c) lt K_(p) & DeltaH=-100kJ the reverse reaction is favoured if :

Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemical equation . The amount of energy released during a chemical change depends upon the state of reactants and products, the conditions of pressure and volume at which reaction is carried out, and temperature. The variation of heat of reaction (DeltaH_(1) or DeltaE) with temperature is given as DeltaH_(2)-DeltaH_(1)=DeltaC_(P)[T_(2)-T_(1)] or DeltaE_(2)-DeltaE_(1)=DeltaC_(v)(T_(2)-T_(1). Standard heat enthalpy of elements in their most stable state is assumed to be zero whereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atm pressure and 25^(@)C . Oxidation of N_(2) to N_(2)O,NO,NO_(2) shows absorption of energy whereas heat of combustion of N_(2) is exothermic like other heat of combustion. Standard heat enthalpy has been assumed to be zero for :