Rate of a reaction A + B rarr Product, i...

Rate of a reaction `A + B rarr` Product, is given as a function of different initial concentration of `A` and `B`.
`|{:([A] (mol L^(-1)),(B) (mol L^(-1)),"Initial rate" (mol L^(-1) min^(-1)),),(0.01,0.01,0.005,),(0.02,0.01,0.010,),(0.01,0.02,0.005,):}|`
Determine the order of the reaction with respect to `A` and with respect to `B`. What is the half life of `A` in the reaction ?

Text Solution

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The correct Answer is:

`t_(1//2) = 1.386 min`
`OR` w.r.t. `A = 1`
`OR` w.r.t. `B = 0`

`|{:([A] (mol L^(-1)),[B] (mol L^(-1)),"Initial rate" (mol L^(-1) min^(-1)),),(0.01,0.01,0.005,),(0.02,0.01,0.010,),(0.01,0.02,0.005,):}|`
form careful observation of the given data, it can be conclude that doubling the concentration of `A` alone doubles the rate of the reaction, therefore order with respect to `A` is one. Doubling the concentration of `B` alone does not affect the rate of the reaction, therefore order with respect to `B` is zero.
Rate `= k[A][B]^(0) = k[A]`
or `k = (0.005)/(0.01) = 0.5 min^(-1)`
Half life `= (0.693)/(k) = (0.693)/(0.5) = 1.386 min`

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Calculate the half life of the reaction ArarrB , when the initial concentration of A is 0.01 "mol" L^(-1) and initial rate is 0.00352 "mol" L^(-1)"min"^(-1) . The reaction is of the first order

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For a first order reaction A to B the reaction rate at reactant concentration of 0.01 M is found to be 2.0 xx 10 mol L^(-1) s^(-1) . The half-life period of the reaction is

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For a first order reaction A to B the reaction rate at reactant concentration of 0.01 M is found to be 2.0 xx 10 mol L^(-1) s^(-1) . The half-life period of the reaction is

30 s

220 s

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Calculate the half life of the reaction ArarrB , when the initial concentration of A is 0.01 "mol" L^(-1) and initial rate is 0.00352 "mol" L^(-1)"min"^(-1) . The reaction is of the first order

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