If activation energy, `E_(a)` of the reaction is equal to RT then

Arrhenius equation k=Ae^(-E_(a)//RT) If the activation energy of the reaction is found to be equal to RT, then [given : (1)/(e )=0.3679 ]

Activation energy of the reaction is :

The temperature dependence of rate constant (k) of a chemical reaction is written in terms of Arrhenius equation, k=Ae^(-E_(a)//RT)) Activation energy (E_(a)) of the reaction can be calculate by plotting

Define activation energy of a reaction.

For an endothermic reaction energy of activation is E_(a) and enthlpy of reaction is Delta H (both in kJ "mol"^(-1) ). Minimum value of E_(a) will be

Assertion (A): Poistive catalyst lowers the activation energy of the reaction whereas the heat of reaction remains same. Reason (R ): The heat of reaction is equal to the difference between activation energies for forward and backward reactions.

When a biochemical reaction is carried out in laboratory from outside of human body in the absence of enzyme, the rate of reaction obtained is 10^(-6) times, then activation energy of the reaction in the presence of enzyme is (a) (6)/(RT) (b)P is required (c)Different forms E_(a) obtained in laboratory (d)cannot say any things

The activation energy of a reaction is zero. The rate constant of this reaction