For a reaction having rate constant k at...

For a reaction having rate constant k at a temperature T, when a graph between ln k and 1/T is drawn a straight line is obtained. The point at which line cuts y -axis and x -axis respectively correspond to the temperature:

A

`0, (E_(a))/(2.303R) log` A

B

`oo, (E_(a))/(R )ln A`

C

`0, log A`

D

None of these

Text Solution

Verified by Experts

The correct Answer is:

B

`log K = [(-E_a)/(2.303 R)] xx 1/T + log A " " "at Y axis"[1/T] = 0`

Similar Questions

Explore conceptually related problems

When a graph between log K and 1//T is drawn a straight line is obtained. The point at which line cuts y-axis and x-axis respectively correspond to the temperature :

The graph between log k versus 1//T is a straight line.

The graph between the log K versus 1/T is a straight line. The slope of the line is

The graph drawn between rate and time is a straight line parallel to x-axis.The order of the reaction is

If a graph is plotted between ln k and 1//T for the first order reaction, the slope of the straight line so obtained is given by

For a first order reaction, the plot of log k against 1/T is a straight line. The slope of the line is equal to

K represents the rate constant of a reaction when log K is p lotted again st 1/T (T=temperature) the graph obtained is a

If a graph is plotted between log (a-x) and t , the slope of the straight line is equal to -0.03 . The specific reaction rate will be

If K_(1)= Rate constant at temperature T_(1) and k_(2) rate constant at temperature T_(2) for a first order reaction, then which of the following relation is correct ?

For a reaction having rate constant k at a temperature T, when a graph between ln k and 1/T is drawn a straight line is obtained. The point at which line cuts y -axis and x -axis respectively correspond to the temperature:

Text Solution

Similar Questions

Recommended Questions