In the Arrhenius equation: `k = A exp(-E_(a)//RT)`, the rate constant

In the Arrhenius eqution k=Ae^(-E_(a)//RT) , the rate constant (k) becomes equal to the Arrhenius constant (A), when :

In the Arrhenius equation, k =Ae^(E_a/RT) , the rate constant (k) becomes equal to Arrhenius constant (A) when:

In the Arrhenius equation , k=Ae^(-E_(a)//RT) the Arrhenius constant A will be equal ot the rate constant when :

The rate constant of most of the reaction increases with increase in temperature. According to the Arrhenius equation, k = Ae^(-E_(a)//RT) . The curve of rate constant 'k' against temperature 'T' will be.

In the Arrhenius equation, k = A exp^(-Ea//RT) , A may be termed as the rate constant at…………. .

In the Arrhenius equation, k = A exp^(-Ea//RT) , A may be termed as the rate constant at…………. .

In Arrhenius equation , K=Ae^(-E_a//RT) . The A is

In Arrhenius equation , K=Ae^(-E_a//RT) . The A is

In Arrhenius equation k = Ae^(-E_(a)//RT)) , A is the value of the rate constant