For a complex reaction `A overset(k) rarr `products
`E_(a1)=180kJ //mol e,E_(a2)=80kJ//mol ,E_(a3)=50kJ//mol`
Overall rate constant `k` is related to individual rate constant by the equation `k=((k_(1)k_(2))/(k_(3)))^(2//3)`. Activation energy `( kJ//mol )` for the overall reaction is `:`

The reaction takes place in three steps with activation energy E_(A_(1))=x (kJ)/(mol), E_(A_(2))=y(kJ)/(mol) and E_(A_(3))=z(kJ)/(mol) respectively. Overall rate constant of the reaction is k= ((k_(1)k_(2))/(k_(3)))^(1//5) .The activation energy of the reaction will be

A reaction takes place in three steps with individual rate constant and activation energy, {:(,"Rate constant","Activation energy"),("Step 1",k_(1),E_(a_(1))=180kJ //"mol"),("Step2", k_(2),E_(a_(2))=180kJ //"mol"),("Step3",k_(3),E_(a_(3))=180kJ //"mol"):} oveall rate constant, k=((k_(1)k_(2))/(k_(3)))^(2//3) overall activation energy of the reaction will be :

For a reaction ArarrB,E_a=10kJ//mol,DeltaH=5kJ//mol . Thus potential energy profile for this reaction is

A reaction takes place in theee steps: the rate constant are k_(1), k_(2), and k_(3) . The overall rate constant k=(k_(1)k_(3))/(k_(2)) . If E_(1), E_(2) , and E_(3) (energy of activation) are 60, 30 and 10kJ , respectively, the overall energy of activation is

A reaction takes place in three steps. The rate constant are k_(1), k_(2) and k_(3) . The overall rate constant k=(k_(1)k_(3))/(k_(2)) . If E_(1), E_(2) and E_(3) (energy of activation) are 60, 30 and 10 kJ, respectively, the overall energy. Of activation is

For a reaction taking place in three steps, the rate constant are k_(1), k_(2) and k_(3) and overall rate constant is k=(k_(1)k_(3))/(k_(2) . If the energies of activation E_(1) , E_(2) and E_(3) are 60, 30 and 10 kJ mol^(-1) respectively, then the overall energy of activation is:

For a reaction A rarr B, E_(a) = 10 kJ mol^(-1), DeltaH = 5 kJ mol^(-1) . Thus, potential energy profile for this reaction is:

The decomposition of ethane follows the rate law (-d[CH_(3)CH_(3)])/(dt)=K[C_(2)H_(6)] with overall K= ((K_(1)K_(2)K_(3)K_(4))/(K_(5))) , where K_(1),K_(2),K_(3),K_(4),K_(5) are the rate constants of various elementary steps.The values of E_(a) of elementary reactions were found to be E_(a_(1))=350(kJ)/(mol ) E_(a_(2))=2 (kJ)/(mol) E_(a_(3))=160(kJ)/(mol) E_(a_(4))=30(kJ)/(mol) , E_(a_(5))=10(kJ)/(mol) The activation energy of the overall reaction is xkJ/mol. The value of (x)/(5) is