In the reaction `NH_(4)NO_(2)(aq.) rarr N_(2)(g) + 2H_(2)O(l)` the volume of `N_(2)` after `20` min and after a long time is `40 ml` and `70 ml` respectively, The value of rate constant is :

In the reaction NH_(4)NO_(2)(aq)rarrN_(2)(g)+2H_(2)O(l) the volume of N_(2) after 20 min and after a long time is 40 ml and 70 ml respectively. The value of rate constant is :

Decomposition of NH_(4)NO_(2)(aq into N_(2)(g) and 2H_(2)O(l) is first order reaction.

In the reaction NO_(2)^(-) +H_(2)O rarr NO_(3)^(-)+2H^(+)+"n"e^(-) What is the value of "n" ?

Aqueous AB_(2) decomposes according to the first order reaction: AB_(2)(aq) rarr A(g) + 2B(l) After 20 min the volume of A(g) colledcted during such a reaction is 20 mL , and that collected after a very long time is 40 mL . The rate constant is :

The compoistion of N_(2)O_(5) is a first order reaction represented by: N_(2)O_(5) rarr N_(2)O_(4) + 1//2O_(2) . After 20 min the volume of O_(2) profuced is 10 mL and at the end of the reaction 40 mL . The rate constant is equal to

In the resction 2NH_(4)^(+)+6NO_(3)^(-)(aq)+4H^(+)(aq)rarr 6NO_(2)(g)+N_(2)(g)+6H_(2)O the reducing agent is

The equilibrium constant for the reaction NH_(4)NO_(2)(s)hArr N_(2)(g)+2H_(2)O(g) , is given by