Arrhenius equation is, `k=A.e ^(-E_(a)//RT)` .k = A if the value of T is .........

Arrhenius equation: k=Ae^(-E_(a)//RT) . Which one of the following statements related to E_(a) is correct -

According to Arrhenius equation, the slope of the plot of logk against 1/T is .........

According to Arrhenius equations rate constant (k) is equal to Ae^(-E_(a)//RT) . Which of the following options represents the graph of Ink vs. (1)/(T) -

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

Rate of a reaction can be expressed by Arrhenius equation as : k =(Ae)^(E/RT) In this equation. E represents

If the product of the roots of the equation x^(2)-3kx+2e^(2log_(e)k)-1=0 be 7, then find the value of k.

If the product of the roots of the quadratic equation x^(2)-5kx+3e^(log_(e)k)-1=0 be 8, then the value of k =

The rate constant is given by equation k= P.Ze^(-E_a/(RT)) . Which factor should register a decrease for the reaction to proceed more rapidly?

Consider the Arrhenius equation given below and mark the correct option - k=Ae^(-E_(a)//RT)

Write down the Arrhenius equation relating the rate constant of a reaction with temp. If K_1 and K_2 be the rate constants of reaction at temperature t_1^@C and t_2^@C respectively, Find out the relation between K_1 , K_2 , t_1 and t_2 . Give that the activation energy (E_a) of the reaction remains unchnaged within the temp. range mentioned. The rate constants of a reaction at 400K and 500K are 0.02 S^-1 and 0.085 S^-1 respectively. Determine the activation energy (E_a) of the reaction.