For a first order reaction,...

For a first order reaction,

The degree of dissociation is equal to `(1-e^(-kt))`.

A plot of reciprocal concentration of the reactant versus time gives a straight line.

The time taken for the completion of `75%` of the reaction is theice the time taken for `1//2` of the reaction.

The pre-exponential factor in the Arrhenius equation has the dimenison of time `T^(-1)`.

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The correct Answer is:

A, D

`k = (2.303)/(t) log.(A_(0))/(A)`
or `kt = ln.(A_(0))/(A) = ln.(1)/(1-a)`
If `a` is the degree of dissociation,
`e^(kt) = (1)/(1-a)`
or `1-a = e^(-kt)`
or `a = 1-e^(-kt)`
`:. k = Ae^(-E_(a)//RT)` (Arrhenius equation)
Pre-exponential factor has the same dimenisons as rate constant, and for a first ordr reaction that is `(t^(-1))`

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For a first order reaction,

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