Consider the data below for a reaction `A rarrB`
`{:("Time (sec)",0,10,20,30),("Rate",1.60xx10^(-2),1.60xx10^(-2),1.60xx10^(-2),1.59xx10^(-2)):}`
From the above data the order of reaction is

Consider the data given below for hypothetical reaction A rarr X {:(,"Time (s)",,"Rate of the reaction"(mol L^(-1)s^(-1))),(,0,,1.60xx10^(-2)),(,10,,1.60xx10^(-2)),(,20,,1.60xx10^(-2)),(,30,,1.59xx10^(-2)):} From the above data, the order of reaction is:

During the kinetic study of the reaction, 2A +B rarrC+D , following results were obtained {:("Run",[A]//molL^(-1),[B]molL^(-1),"Initial rate formation of "D//molL^(-1)"min"^(-1)),(I,0.1,0.1,6.0xx10^(-3)),(II,0.3,0.2,7.2xx10^(-2)),(III,0.3,0.4,2.88xx10^(-1)),(IV,0.4,0.1,2.40xx10^(-2)):} Based on the above data which one of the following is correct ?

Following data are obtained for the reaction: N_(2)O_(5) rarr 2NO_(2) + .^(1//2) O_(2) |{:(t//s,0,300,600),([N_(2)O_(5)]//mol L^(-1),1.6 xx 10^(-2),0.8 xx 10^(-2),0.4 xx 10^(-2)):}| (a) Show that it follows first order reaction (b) Calculate the half-life (Given log 2 = 0.3010 log 4 = 0.6021]

The reaction of A_(2) and B_(2) follows the equation A_(2)(g)+B_(2)(g)to2AB(g) The following data were observed {:(,[A_(2)]_(0),[B_(2)]_(0),"Initial rate of appearance of AB(g)(in" Ms^(-1)),(,0.10,0.10,2.5xx10^(-4)),(,0.20,0.10,5xx10^(-4)),(,0.20,0.20,10xx10^(-4)):} The value of rate constatnt for the above reaction is :

(1/4)^(-10)xx(2/5)^(-10)

The experiment data for the reaction 2A + B_(2) rarr 2AB is |{:("Experiment",[A] M,[B_(2)] M,"Initial rate" (mol L^(-1) s^(-1)),),(I,0.50,0.5,1.6 xx 10^(-4),),(II,0.50,1.0,3.2 xx 10^(-4),),(III,1.00,1.0,3.2 xx 10^(-4),):}| Write the most probable rate equation for the reaction giving reason for your answer.

The experiment data for the reaction 2A + B_(2) rarr 2AB is |{:("Experiment",[A] M,[B_(2)] M,"Initial rate" (mol L^(-1) s^(-1)),),(I,0.50,0.5,1.6 xx 10^(-4),),(II,0.50,1.0,3.2 xx 10^(-4),),(III,1.00,1.0,3.2 xx 10^(-4),):}| Write the most probable rate equation for the reacting giving reason for you answer.

For the decompoistion of HI at 1000 K(2HI rarr H_(2)+I_(2)) , following data were obtained: |{:([HI] (M),"Rate of decomposition of HI" (mol L^(-1) s^(-1))),(0.1,2.75 xx 10^(-8)),(0.2,11 xx 10^(-8)),(0.3,24.75 xx 10^(-8)):}| The order of reaction is

For the decompoistion of HI at 1000 K(2HI rarr H_(2)+I_(2)) , following data were obtained: |{:([HI] (M),"Rate of decomposition of HI" (mol L^(-1) s^(-1))),(0.1,2.75 xx 10^(-8)),(0.2,11 xx 10^(-8)),(0.3,24.75 xx 10^(-8)):}| The order of reaction is

The rate of a reaction starting with initial concentration of 2 xx 10^(-3) and 1 xx 10^(-3) M are equal to 2.40 xx 10^(-40) and 0.60 xx 10^(-4) M s^(-1) , respectively. Calculate the order or reaction w.r.t. reactant and also the rate constant.