Home
Class 12
CHEMISTRY
A follow parallel path of first-order re...

A follow parallel path of first-order reactions giving `B` and `C` as
If the initial concentration of `A` is `0.25 M`, calculate the concentration of `C` after 5 hr of reaction.

Text Solution

Verified by Experts

`lambda_(A) = lambda_(1) + lambda_(2) = .15 xx 10^(-5) + 5 xx 10^(-6) = 20 xx 10^(-6) s^(-1)`
Also, `2.303 log ([A]_(0))/([A]_(t)) = lambdas xx t`
`:. 2.303 log (0.25)/([A]_(t)) = 20 xx 10^(-6) xx 5 xx 60 xx 60`
`:. [A]_(t) = 0.1744 M`
`:. [A]_("decompound") = [A]_(0) - [A]_(t) = 0/25 - 0.1744`
`= 0.-756 = M`
Fraction of `C` formed `= [(lambda_(2))/(lambda_(1) + lambda_(2))] xx [A]_("decomposed") xx (2)/(5)`
`= 0.0756 xx (5 xx 10^(-6))/(20 xx 10^(-6)) xx (2)/(5)`
`= 7.56 xx 10^(-3) M`
Promotional Banner

Topper's Solved these Questions

  • NUCLEAR CHEMISTRY

    CENGAGE CHEMISTRY|Exercise Solved Example|18 Videos

  • NUCLEAR CHEMISTRY

    CENGAGE CHEMISTRY|Exercise Ex6.1 Objective|15 Videos

  • NCERT BASED EXERCISE

    CENGAGE CHEMISTRY|Exercise Nuclear Chemistry (NCERT Exercise)|29 Videos

  • ORGANIC COMPOUNDS WITH FUNCTIONAL GROUP

    CENGAGE CHEMISTRY|Exercise Archives Analytical And Descriptive|24 Videos

Similar Questions

Explore conceptually related problems

Half life of a first order reaction is 4s and the initial concentration of the reactant is 0.12 M. The concentration of the reactant left after 16 s is

For the first order reaction half-life time is ………….. on the initial concentration.

The rate constant of a first order reaction is 3 xx 10^(-6) per second. If the initial concentration is 0.10 M , the initial rate of reaction is

The half-life periof of a first order reaction is…………..of initial concentration.