The following results have been obtained during the kinetic studies of the reaction : `2A+B to C+D` Determine the rate law and rate constant for the reaction.

The following results have been obtained during the kinetic studies of

1.	The following results have been obtained during the kinetic studies of the reaction : `2A+B to C+D` Determine the rate law and rate constant for the reaction.
Answer» Rate law may be expresswed as Rate `=k[A]^(x)[B]^(y)` `[Rate]_(1)=6.0xx10^(-3) =k(0.1)^(x) (0.1)^(y) -(i)` `[Rate]_(2)=7.2 xx10^(-2) =k(0.3) ^(x) (0.2)^(y)-(ii)` `[Rate]_(3)=2.88xx10^(-1)=k(0.3)^(x)(0.4)^(y)-(iii)` `[Rate]_(4)=2.40xx10^(-2) =k(0.4)^(x)(0.1)^(y)-(iv)` `((Rate)_(1))/((Rate)_(4))=(6.0xx10^(-3))/(2.40xx10^(-2))=(k[0.1]^(x) [0.1]^(y))/(k[0.4]^(x)[0.1]^(y))or 1/4 =((0.1)^(y))/((0.4)^(x))=((1)/(4))^(x) x=1` `((Rate)_(2))/((Rate)_(3))=(7.2xx10^(-2))/(2.88xx10^(-1))=(k[0.3]^(x)[0.2]^(y))/(k[0.3]^(x)[0.4]^(y))or 1/4 =((0.2)^(y))/((0.4)^(y))=[(1)/(2)]^(y)y=2` `therefore` Rate law expression is given by Rate `=k [A][B]^(2)` Rate constant k, can be determined by placing the values of A, B and rate of formation of D. By taking the values for experiment II. Rate `k[A][B]^(2)` `k=(Rate)/([A][B]^(2))=(7.2xx10^(-2)mol L^(-1)"min"^(-1))/((0.3 mol L^(-1) )(0.2 molL^(-1))^(2))=6.0 mol^(-2) L^(2)"min"^(-1)` `therefore k=6.0 mol^(-2)L^(2) min ^(-1).`

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The following results have been obtained during the kinetic studies of the reaction : `2A+B to C+D` Determine the rate law and rate constant for the reaction.

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