A ...... dependent equation of rate is c...

A ...... dependent equation of rate is called differential rate equation.

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Rate equation for a second order reaction is :

`K=(2.303)/tlog((a)/(a-x))`

`K=(1)/tlog((a)/(a(a-x)))`

`K=(1)/t.(x)/(a(a-x))`

`K=(1)/t^2.(a)/((a-x))`

Rate equation for a second order reaction is :

`K=(2.303)/t(log)(a)/((a-x))`

`K-(1)/t(log)(a)/(a(a-x))`

`K-(1)/t.(x)/(a(a-x))`

`K=(1)/t^2.(a)/((a-x))`

The reaction, 2ArarrB+C follow zero order kinetics. The differential rate equation for the reaction is:

`(dx)/dt=K[A]^0`

`(dx)/dt=K[A]^2`

`(dx)/dt=K[B][C]`

`(dx)/dt=K[A]`

A ...... dependent equation of rate is called differential rate equation.

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Rate equation for a second order reaction is :

Rate equation for a second order reaction is :

The reaction, 2ArarrB+C follow zero order kinetics. The differential rate equation for the reaction is:

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