Rate constant k varies with temperature ...

Rate constant k varies with temperature by equation, log k `(min+^(-1))=5-(2000)/(T(K))` We can conclud:

per exponential factor A is `10^(5)`

`E_(a)` is 2000 k cal

`E_(a)` is 9.212 k cal

pre exponential factor A is 5

Text Solution

Verified by Experts

The correct Answer is:

A, C

Topper's Solved these Questions

Chemical Kinetics
MOTION|Exercise Exercise - 2 (Level-II) (COMPREHENSION - 3)|4 Videos
Chemical Kinetics
MOTION|Exercise Exercise - 2 (Level-II) (COMPREHENSION - 4)|5 Videos
Chemical Kinetics
MOTION|Exercise Exercise - 2 (Level-II) (Zero order reaction, 1st order reaction, 2nd order reaction & nth order reaction)|9 Videos
CHEMICAL EQUILIBRIUM
MOTION|Exercise Exercise - 4|20 Videos
CLASSROOM PROBLEMS
MOTION|Exercise Electrochemistry|22 Videos

Similar Questions

Explore conceptually related problems

Rate constant k varies with temperature by equation log k (min^(-1)) = log 5 - (2000 kcal)/(RT xx 2.303) . We can conclude that

Rate constant k of a reaction varies with temperature according to the equation logk = constant -E_a/(2.303R)(1/T) where E_a is the energy of activation for the reaction . When a graph is plotted for log k versus 1/T , a straight line with a slope - 6670 K is obtained. Calculate the energy of activation for this reaction

For an elementary reaction the variation of rate constant (k) with temperature is given by the following equation log_(10) k=5.4 -100/T Where, T is temperature on Kelvin scal and k is in terms of sec^(-1) Identify the incorrect options.

Rate constant k of a reaction varies with temperature according to the equation logk=" constant"-(E_(a))/(2.303).(1)/(T) where E_(a) is the energy of activation for the reaction. When a graph is plotted for log k versus 1//T , a straight line with a slope -6670 K is obtained. Calculate the energy of activation for this reaction. State the units (R=8.314" JK"^(-1)mol^(-1))

MOTION-Chemical Kinetics-Exercise - 2 (Level-II) (COMPREHENSION - 2)

Column-I and Column-II contains four entries each.Entries of Column-I ...
Text Solution
|
Consider the following first order decomposition process: Here, '...
Text Solution
|
5A rarr Product In above reaction, half-life period is directly propor...
Text Solution
|
The complex [Co(NH(3))(5)F]^(2+) reacts with water according to the eq...
Text Solution
|
An optically active compound A upon acid catalysed hydrolysis yield tw...
Text Solution
|
The reaction CH(3) – CH(2) – NO(2) + OH^(–) rarr CH(3) – CH – NO(2) + ...
Text Solution
|
Decomposition of H(2)O(2) is a first order reaction. A solution of H(...
Text Solution
|
The reaction A B, obeys the rate law for pseudo first order kinetics...
Text Solution
|
For any acid catalysed reaction, Aoverset(H^(+))rarrB half- life per...
Text Solution
|
Statement-1: Temperature coefficient of a one step reaction may be neg...
Text Solution
|
Statement-1 : The overall rate of a reversible reaction may decrease w...
Text Solution
|
Statement-1: In a reversible endothemic reactiuon, E(act) of forward ...
Text Solution
|
Statement-1 : A catalyst provides an alternative path to the reaction ...
Text Solution
|
Statement-1 : Rate of a chemical reaction increases as the temperature...
Text Solution
|
Statement-1 : Catalyst does not change the Delta H value of the reacti...
Text Solution
|
Which of the following concepts are correct
Text Solution
|
The baiss theory behind Arrhenius' equation is that
Text Solution
|
Rate constant k varies with temperature by equation, log k (min+^(-1))...
Text Solution
|
A reaction is catalysed by H^(+) ion. In presence of HA, rate constant...
Text Solution
|
In which of the following, E(a) for backward reaction is greater than ...
Text Solution
|