For a hypothetical reaction aA + bB rar...

For a hypothetical reaction `aA + bB rarr` Product, the rate law is: rate `= K[A]^(x)[B]^(y)`, then

`(a+b)=(x+y)`

`(a+b) lt (x+y)`

`(a+b) gt (x+y)`

Any of these

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The rate and mechamical reaction are studied in chemical kinetics. The elementary reactions are single step reaction having no mechanism. The order of reaction and molecularity are same for elementary reactions. The rate of forward reaction aA + bBrarr cC+dD is given as: rate =((dx)/(dt))=-1/a(d[A])/(dt)=-1/b(d[B])/(dt)=1/c(d[C])/(dt)=1/d(d[D])/(dt) or expression can be written as : rate =K_(1)[A]^(a)[B]^(b)-K_(2)[C]^(c )[D]^(d) . At equilibrium, rate = 0 . The constants K, K_(1), K_(2) are rate constants of respective reaction. In case of reactions governed by two or more steps reaction mechanism, the rate is given by the slowest step of mechanism. For a hypothetical reaction aA+bBrarr Product, the rate law is: rate =K[A]^(x)[B]^(y) , then:

For a hypothetical reaction: A+B rarr Products, the rate law is r = k[A][B]^(0) . The order of reaction is

For a hypothetical reaction, A + B + C to Products, the rate law is determined to be rate = k[A][B]^(2) . If the concentration of B is doubled without changing the concentration of A and C, the reaction rate:

For a reaction pA +qB rarr products, the rate law expression is r=k[A]^(m)[B]^(n) then

For a reaction pA +qB rarr products, the rate law expression is r=k[A]^(l)[B]^(m) then

For a reaction pA + qB rarr Product, the rate law expresison is r = k[A][B]^(m) . Then

(a) For a reaction , A+B rarr Product the rate law is given rate = k[A]^(1)[B]^(2) .What is the order of the reaction ? (b) write the unit of rate constant k for the first order reaction

MOTION-Chemical Kinetics-Exercise - 2 (Level-I) (Introduction, Rate of reaction, Factor affecting rate of reaction, Effect of)

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