Consider the rate law expression for a reaction : `rate = k[NO_2^-] [I^-][H^+]^2`
Which of the following is/are not correct ?

The rate law for a reaction is found to be : Rate = k [NO_2^(-) [I^(-)] [H^+]^2 How would the rate of reaction change when concentration of I^- is halved ?

For a reaction 2A +B to 2C , rate equation is given as Rate = k |A^2|B| , which of the following statement is correct :

Consider a general reaction aA+ bB rarr cC+ dD . The rate expression for the reaction is : Rate = k [A]^x[B]^y Write any two differences between order and molecularity.

Express the rate of the following reaction : 2NO_2 rarr 2NO+ O_2

The rate law for a reaction is Rate = k[A]^(1//2)[B]^2 Can the reaction be an elementry reaction. Explain.

For the reaction O_(3(g)) + O_((g)) rarr 2O_(2(g)) , if the rate law expression is, rate = K[O_3] [O] , the molecularity and order of the reaction are respectively

Derive the rate law expression for the reaction: 2P + Q rarr Products if the first step is the reversible dimerization of P, followed reaction of P_2 with Q in a bimolecular rate controlling step. Assume that the equilibrium concentration of P_2 is very small as compared to [P].

Express the rate of the following reaction : 4PH_3 rarr P_4+ 6H_2

For the reaction : Cl_2 (g) + 2NO (g) rarr 2 NOCl(g) The rate law is expressed as rate = k[NO]^2 [Cl_2] What is the overall order of the reaction ?

Which of the following rate laws could describe a third order reaction ?