If a reaction follows the Arrhenius equation, the plot lnk vs `1//(RT)` gives straight line with a gradient (-y) unit. The energy required to activate the reactant is :

If a reation follows the Arrhensis equation the plot lnk vs 1/(RT) gives straight line with a gradient (-y) unti .The energy required to active the reactant is :

If a reation follows the Arrhensis equation the plot lnk vs 1/(RT) gives straight line with a gradient (-y) unti .The energy required to active the reactant is :

For the Arrhenius equation, the slope for the plot ln k vs 1/T is

If a reaction follows the Arrhenius equation, the plot lnk vs 1/RT gives a straight-line having intercept 'In a' unit on positive y-axis. The maximum value of rate constant k is :

In a second order reaction, the plot of 1//(a-x) versus t is a straight line.

For a first order reaction the plot of ‘t’ against log c gives a straight line with a slope equal to :

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

The variation of lnKc vs. (l)/(T) gives straight line having an angle of 45^(@) . The value of heat of reaction in Cal is _____

Rate constant k of a reaction varies with temperature according to equation: log k= constant - (E_a)/( 2.303 R).(1)/(T ) What is the activation energy 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 energy of activation for this reaction (R=8.314 JK^(-1) mol^(-) 1)