For the reaction A + B ` to` products, the following initial rates were obtained at various given initial concentration
`{:("S.No.",,"[A]mol/L",,"[B] mol/L",,"Initial rate M/s"),(1.,," "0.1,," "0.1,," "0.05),(2.,," "0.2,," "0.1,," "0.10),(3.,," 0.1",," 0.2",," 0.05"):}`
Determine the half-life period.

Rate of a reaction A + B rarr Product, is given as a function of different initial concentration of A and B . |{:([A] (mol L^(-1)),(B) (mol L^(-1)),"Initial rate" (mol L^(-1) min^(-1)),),(0.01,0.01,0.005,),(0.02,0.01,0.010,),(0.01,0.02,0.005,):}| Determine the order of the reaction with respect to A and with respect to B . What is the half life of A in the reaction ?

For the reaction 2A+BrarrC , the values of initial rate at different reactant concentrations are given in the table below. The rate law for the reaction is : {:([A]("mol"L^(-1)),[B]("mol"L^(-1)),{:("Initial Rate"),("mol"^(-1)s^(-1)):}),(0.05,0.05,0.045),(0.10,0.05,0.090),(0.20,0.10,0.72):}

The kinetic date for the given reaction A(g)+2B(g)overset(K)toC(g) is provided in the following table for three experiments at 300 K {:("Ex. No.","[A/M]","[B/M]","Initial rate" (M sec^(-1))),(1.,0.01,0.01,6.930xx10^(-6)),(2.,0.02,0.01,1.386xx10^(-5)),(3.,0.2,0.02,1.386xx10^(-5)):} In another experiment starting swith initial concentration of 0.5 and 1 M respectively for A and B at 300 K, find the rate of reaction after 50 minutes from the starting of edperiment (inM // sec).

For a reaction A+2Brarr2C , the following data were obtained . Initial concentration {:(,[A],[B],"Rate"(moll^(-1)min^(-1))),(i.,1.0,1.0,0.15),(ii,2.0,1.0,0.30),(iii.,3.0,1.0,0.45),(iv.,1.0,2.0,0.15),(v.,1.0,3.0,0.15):} The rate law for this reaction

In a first-order reaction A rarr B , if K is the rate constant and initial concentration of the reactant is 0.5 M , then half-life is

For the reaction : 2A + B rarr C + D , measurement of the rate of the reaction at varying concentrations are given below: {:("Trial No.",[A],[B],"Rate in mol L"^(-1)s^(-1)),(1,0.010,0.010,2.5),(2,0.010,0.020,5.0),(3,0.030,0.020,45.0):} The overall order of the reaction is :

For the given reaction , A+Brarr Products Following data are given : {:("initial conc."(m//L),"initial conc."(m//L),"initial conc."(mL^(-1)S^(-1))),([A]_0,[B]_0,),(0.1,0.1,0.05),(0.2,0.1,0.1),(0.1,0.2,0.05):} calculate the Rate constant

For the non-stoichiometric reaction 2A+BrarrC+D The following kinetic data were obtained in theee separate experiment, all at 98 K |{:("Initial concentration (A)","Initial concentration (B)","Initial rate of formation of C" (molL^(-1) s^(-1))),(0.01 M,0.1 M,1.2 xx 10^(-3)),(0.1 M,0.2 M,1.2 xx 10^(-3)),(0.2 M,0.1 M,2.4 xx 10^(-3)):}| The rate law for the formation of C is:

For the hypothetical reaction 2A + B rarr Products following data obtained: |{:("Experiment number","Initial conc of (A)" (mol L^(-1)),"Initial conc of (B)" (mol L^(-1)),"Initial rate mol" L^(-1) s^(-1),),(1,0.10,0.20,3 xx 10^(2),),(2,0.30,0.40,3.6 xx 10^(10^(3)),),(3,0.30,0.80,1.44 xx 10^(4),),(4,0.10,0.40,...,),(5,0.20,0.60,...,),(6,0.30,1.20,...,):}| Find out how the rate of the reaction depends upon the concentration of A and B and fill in the blanks given in the table.

|{:([A],[B],"Initial Rate"),(0.05,0.05,0.045),(0.10,0.05,0.09),(0.20,0.10,0.72):}| for 2A+BtoC . Find the rate law