Rate constant for a chemical reaction taking place at 500K is expressed as `K=A. e^(-1000)` The activation energy of the reaction is :

How the chemical reaction takes place?

The temperature dependence on rate constant (k) of a chemical reaction is written in terms of Arrhenius equation, k=A.e^(-E^(0)//RT) . Activation energy (E^(0)) of the reaction can be calculated by plotting

If the rate for the chemical reaction is expresssed at Rate =K[A][B]" then

The use of a catalyst in chemical reaction…activation energy of the reaction

If the half lives of the first order reaction at 350 K and 300 K are 2 and 20 seconds respectively the activation energy of the reaction in kj "mol"^(-1) is

(A) : The rate of a chemical reaction decreases as the reaction proceeds. (R) : The reactant concentration remains constant as the reaction proceeds. The correct answer is

For a chemical reaction Ato products, the following equation is found to be followed, logK=16.398-2800/T Activation energy of the reaction is _____________K.Cal

The rate constant K_(1) of a reaction is found to be double that of rate constant K_(2) of another reaction. The relationship between corresponding activation energies of the two reactions E_(1) and E_(2) can be represented as