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 a reaction 2NO(g) + 2H_(2)(g) rarr N_(2)(g)+2H_(2)O(g) the following data were obtained: |{:(,[NO] (mol L^(-1)),[H_(2)] (mol L^(-1)),"Rate" (mol L^(-1) s^(-1))),(1.,5 xx 10^(-3),2.5 xx 10^(-3),3 xx 10^(-5)),(2.,15 xx 10^(-3),2.5 xx 10^(-3),9xx10^(-5)),(3.,15 xx 10^(-3),10 xx 10^(-3),3.6 xx 10^(-4)):}| (a) Calculating the order of reactions. (b) Find the rate constant. (c ) Find the initial rate if [NO] = [H_(2)] = 8.0 xx 10^(-3) M

For a reaction aA +b B rarr products the following data were found {:(,[A],[B],"rate",),(,0.10,0.10,1xx10^(-2),),(,0.20,0.20,8xx10^(-2),),(,0.10,0.20,2xx10^(-2),):} The overall order of reaction is

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:

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:

The following data are obtained for a reaction, X+Yrarr"Products" . {:("Expt. ",[X_(0)]//"mol ",[Y_(0)]//"mol ","rate/mol L"^(-1)s^(-1)),(1,0.25,0.25,1.0xx10^(-6)),(2,0.50,0.25,4.0xx10^(-6)),(3,0.25,0.50,8.0xx10^(-6)):} The overall of the reaction is

During the kinetic study of the reaction 2A +B rarr C + D following results were obtained. {:(, Run[A],[B] i n M,"Initial rate of fo rmation of D in "m s^(-1),),(I,0.1,0.1,6.0 xx 10^(-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),):} On the basis of above data which one is correct ?

For a hypothetical reaction A + B rarr C , suggest the rate law and order form the following data: |{:("Experiment",[A] (mol L^(-1)),[B] (mol L^(-1)),"Refer of reaction" (mol L^(-1) s^(-1)),),(I,0.25,0.25,3.0 xx 10^(-3),),(II,0.50,0.25,6.0 xx 10^(-3),),(III,0.50,0.50,1.20 xx 10^(-2),):}|

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 ozonolysis of pentene in C Cl_(4) at 300 K C_(5)H_(10)+O_(3) rarr C_(5) H_(10)O_(3) the following data is given {:([C_(5)H_(10)],[O_(3)],"rate",),(1.0xx10^(-2),2.8xx10^(-3),2.2,),(0.5xx10^(-2),2.8xx10^(-3),1.1,),(1.0xx10^(-2),5.6xx10^(-3),4.4,):} The over all order of reaction is

In data given below. {:(,[A],[B],"rate"),(,mol//L,mol//L,mol L ^(-1)s^(-1)),(a., 0.02,1.2,3.0xx10^(-3)),(b.,0.04,2.4,6.0xx10^(-3)):} The reaction may be