The rate constant of the chemical reaction doubled for an increase of 10 k in absolute temperature from 295 k. Calculate the (activation energy),`E_(a

Question

The rate constant of the chemical reaction doubled for an increase of 10 k in absolute temperature from 295 k. Calculate the (activation energy),`E_(a

The rate constant of the chemical reaction doubled for an increase of 10 k in absolute temperature from 295 k. Calculate the (activation energy),`E_(a).`
A. `51.8kJ" mol"^(-1)`
B. `82.1kJ" mol"^(-1)`
C. `23.8kJ" mol"^(-1)`
D. `62.1kJ" mol"^(-1)`

Monjur Alahi

4 views

2025-01-04 04:42

1 Answers

Related Questions

Activation energy of the reaction `AtoB+38KCal` is 20KCal. Then activation energy of reaction `BtoA` bill be :-

2 Answers 5 Views

A first order reaction has activation energy 22.8 kJ at 300 K . If the rate constant of the reation is `1.42 xx 10^(2) min^(-1)` Calculate the frequen

2 Answers 5 Views

The rate of a reaction quadruples when temperature charges from 293 K to 312K, Calculate the energy of activation of the reaction assuming that it doe

2 Answers 4 Views

The activation energy for a reaction at temperature T K was found to be or `2.303 "RT J mol"^(-1)`. The ratio of the rate constant to Arrhenius factor

2 Answers 4 Views

The rate constant of a reaction increases by 5% when its temperature is raised from `27^@c` to `28^@c.` The activation energy of the reaction is

2 Answers 4 Views

For the reaction, `A+Brarr"product"` If concentration of A is doubled, rate increases 4 times. If concentrations of A and B both are doubled, rate inc

2 Answers 9 Views

The activation energy of a reaction is zero. Its rate constant at 280 K is `16 xx 10^(-6) s^(-1)` the rate constant at 300k is

2 Answers 4 Views

For a chemical reaction rate law is, rate `= k{A]^(2)[B]`. If [A] is doubled at constant [B], the rate of reaction

2 Answers 4 Views

A reaction has an activation energy of 209 KJ `"mol"^(-1)` . The rate increase 10-fold when the temperature is increased from `27^(@)C` to `X ""^(@)C`

2 Answers 4 Views

The activation energy of a reaction is 9 kcal `"mole "^(-1) ` . The increase in the rate cnstant when its temperature is raised from 295 to 300 approx

2 Answers 5 Views

Salim Ahmed Kawsar · Accepted Answer · 2023-02-05T15:29:48+06:00

Correct Answer - A
According to Arrhenius equation,
`"log"(k_(2))/(k_(1))E_(a)/(2.303R)[(1)/(T_(1))-(1)/(T_(2))]`
`k_(2)/(k_(1))=2,T_(1)=295k`
`T_(2)=305k`
`R=8.314Jk^(-1)mol^(-1)`
`:." "log2=(E_(a))/(2.303xx(8.314Jk^(-1)mol^(-1)))[(1)/(295k)-(1)/(305k)]`
`E_(a)=(0.3010xx2.303xx8.314xx295xx305)/(10)(Jmol^(-1))`
`=51855Jmol^(-1)=51.855kJmol^(-1)`