The rate of formation of NO(g) in the reaction `NOBr(g) rarr NO(g) + Br_(2)(g)` is found to be `1.6 xx 10^(–4) M//s`. Find the rate of overall reaction rate and rate of consumption of NOBr.

The rate of disappearance of SO_(2) in the reaction 2SO_(2) + O_(2) rarr 2SO_(3) is 1.28 xx 10^(-3) g//sec then the rate of formation of SO_(3) is

The differential rate law for the reaction, 4NH_3(g)+5O_2(g)rarr4NO(g)+6H_2O(g)

The gas - phase reaction between NO and Br_(2) is respresented by the equation 2NO_((g)) + Br_(2(g)) to 2NOBr_((g) (a ) Write the expressions for the rate of consumption of reactants and formation of products. ( b) Write the expression for the rate of overall reaction in terms of rates of consumption of reactions and formation of products.

For the reaction : 2N_(2)O_(5)rarr4NO_(g)+O_(2)(g) if the concentration of NO_(2) increases by 5.2xx10^(-3)M in 100 sec, then the rate of reaction is :

Average rate of reaction for the following reaction, 2SO_(2)(g)+O_(2)(g)rarr2SO_(3)(g) is written as

Reaction rate : At some time, we observe that the reaction 2N_(2)O_(5)(g)rarr 4NO_(2)(g)+O_(2)(g) is forming NO_(2) at the rate of 0.0072 mol L^(-1)s^(-1) . (i) What is the rate of reaction at this time ? (ii) What is the rate of formation of O_(2) at this time ? (iii) What is the rate of consumption of N_(2)O_(5) at this time ? Strategy : For expressing the rate of such reaction where stoichiometric coefficents of reactants or products are not equal to one, rate of any of the products is divided by their respective stoichiometric coefficients. Use the mole ratios from the balanced equation to determine the rates of change of other products and reactants.

For a gaseous reaction: A(g) rarr B(g) , the rate expresison may be given as

For a reaction, 2N_(2)O_(5)(g) to 4NO_(2)(g) + O_(2)(g) rate of reaction is: