The reaction `2NO(g)+O_(2)(g)rarr2NO_(2)(g)` is of first order. Ifvolume of reaction vessel is reduced to 1/3, the rate of reaction would become

The decomposition of N_(2)O_(5) according to the equation, 2N_(2)O_(5) (g) rarr 4NO_(2) (g) + O_(2) (g) is a first order reaction, After 30 minutes from the start of the decomposition in a closed vessel, the total pressure developed is found to be 284.5 mm Hg and on completion, the total pressure is 584.5 mm Hg. Calculate the rate constant of the reaction.

For the reaction 3NO(g)toNO_2(g)+NO(g) ,Rate= k[NO]^2 .What is the order of the reaction?

For the reaction system: 2NO(g) + O_(2) (g) rarr 2NO_(2) (g) volume is suddenly reduced to half its value by increasing the pressure on it. If the reaction is of first-order with respect to O_(2) and second-order with respect to NO, the rate of reaction will be

For the reaction, 2NO_((g) + O_(2(g) rarr 2NO_(2(g) the rate law is given as. Rate =k [NO]^2[O_2] The order of the reaction with respect to O_2 is _______

A reaction of the type A(g) + B(g) rarr Product is taking place in a vessel. Ifthe volume ofthe reaction vessel is suddenly reduced to one fourth of the initial volume, the ratio of final rate initial rate is

For the reaction N_{2}(g) + 3H_{2}(g)rarr2NH_{3}(g) , how are the rate of reaction expressions -d[H_{2}]/dt and d[NH_{3}]/dt interrelated?

For the reaction, 2NO_(g) + O_(2(g)) harr 2NO_(2(g)) . The equilibrium constant is K. Then predict the equilibrium constants for the following reactions. NO + 1/2O_2 harr NO_2