According to Arrhenius equation, the slope of log k vs 1/T plot is

According to the Arrhenius equation,

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) -

According to the Arrhenius equation , what would the value of rate constant be for a reaction when Trarroo ?

Draw the plot of log V vs log T.

For a first-order reaction, the plot of log [A]_t , versus t is linear with a rarr

For the reaction , A rarr P , the value of the rate constant (k) is found to vary with temperature according to the equation given below : logk=(2000)/(T)+0.6 If the pre-exponential factor and activation energy for the reaction are A and E_(a) , respectively, then -

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.

Write down the Arrhenius equation relating the rate constant of reaction with temperature , mentioning what the terms indicate. If k_(1) and k_(2) be the rate constant of a reaction at temperature t_(1)^(@)C and t_(2)^(@)C , respectively, find out the relation between k_(1) ,k_(2) and t_(1) and t_(2) . Given that the activation energy (E_(a)) of the reaction remains unchanged within the temperature range mentioned. The rate constant of a reaction at 400K and 500K are 0.02s^(-1) and 0.08s^(-1) respectively . Determine the activation energy (E_(a)) of the reaction.