Conisder parallel reaction:
`Aoverset(k_(1))rarrB, 2Aoverset(k_(2))rarrC+D`
What would be the rate expresison for `[A]` ?

Conisder a mechanism in which a single reactant profuces several Products by the following parallel first order reactions : A overset(k_(1))rarrB, A overset(k_(2))rarrC A overset(k_(3))rarrD Write the rate expresison for [A] .

Mechanism of the reaction is: A overset(k_(1))rarrB, 2Aoverset(k_(2))rarr C + D What is (-d[A])/(dt) ?

Consider following two competing first ordr reactions, Poverset(k_(1))rarrA+B,Qoverset(k_(2))rarrC+D if 50% of the reaction oof P wascompleted when 96% of Q was complete ,then the ratio (k_(2)//k_(1)) will be :

Consider a nuclear reaction : Aoverset(lambda_(1))rarrB+C and Boverset(lambda_(2))rarrC A converts into B and to C with decay with decay constant lambda_(1) B is alos stable nucleus which futher decays into stable nucleus C with decay constant lambda_(2). Mark the correct statement(s)

For an elementary chemical reaction, A_(2) underset(k_(-1))overset(k_(1))(hArr) 2A , the expression for (d[A])/(dt) is

For an elementary chemical reaction, A_(2) underset(k_(-1))overset(k_(1))(hArr) 2A , the expression for (d[A])/(dt) is

2A rarrB +C It would be a zero order reaction when

Conisder the following reactions: I. A+B underset(k_(-1))overset(k_(1))hArr C II. C + B overset(k_(2))rarr D Then k_(1)[A][B]-k_(-1)[C]-k_(2)[C][B] is equal to (a) (-d[A])/(dt) (b) (-d[B])/(dt) (c) (d[C])/(dt) (d) (d[D])/(dt)

Mechanism of the reaction is: A_(2) overset(k_(2))hArr 2A A + B overset(k_(2))rarr C A_(2) + C overset(k)rarr D + A What is (d[D])/(dt) ?

For a reaction scheme Aoverset(k_(1))toBoverset(k_(2))toD , If the rate of formation if B is set to be Zero then the concentration of B is given by :