Energy of activation of a reactant is reduced by:

For an exothermic reaqction, the energy of activation of the reactants is

A reactions is of second order with respect to a reactant. How is the rate of reaction affected if the concentration of the reactant is reduced to half?

A reaction is of second order with respect to a reactant. How is the rate of reaction affected if the concentration of the reactant is reduced to half ? What is the unit of rate constant of such a reaction ?

The energy of activation is:

The value of energy of activation for radio active decay is

Given that the enthalpy change of a reaction at 325 K is 0.12 kcal and energy of activation for the backward reaction is 0.02 kcal, calculate the percentage of the reactant molecules, crossing over the energy barrier.

The rate of reaction ((dx)/(dt)) varies with nature, physical state and concentration of reactants, temperature, exposure to light and catalyst, whereas rate constant (K) varies with temperature and catalyst only. The rate constant K is given as K=Ae^(-E_(a)//RT) where A is Arrhenius parameter or pre-exponential factor and E_(a) is energy of activation. The minimum energy required for a reaction is called threshold energy and the additional energy required by reactant molecules to attain threshold energy level is called energy of activation. For a reversible reaction, A+B hArr C+D, DeltaH=-A kcal . If energy is B kcal, the energy of activation for backward reaction in kcal is:

The rate of reaction ((dx)/(dt)) varies with nature, physical state and concentration of reactants, temperature, exposure to light and catalyst, whereas rate constant (K) varies with temperature and catalyst only. The rate constant K is given as K=Ae^(-E_(a)//RT) where A is Arrhenius parameter or pre-exponential factor and E_(a) is energy of activation. The minimum energy required for a reaction is called threshold energy and the additional energy required by reactant molecules to attain threshold energy level is called energy of activation. For a reaction, Ararr B , if log_(10) K (sec^(-1)) =14-(1.25xx10^(4))/(T)K , the Arrhenius parameter and energy of activation for the reaction are: