Reaction between nitrogen and oxygen takes place as follows : `2 N_(2) (g) + O_(2) (g) hArr 2 N_(2) O (g) ` If a mixture of` 0*482` mol of `N_(2)` and` 0*933` mol of `O_(2)` is placed in a reaction vessel of volume 10 L and allowed to form `N_(2)O ` at a temperature for which `K_(c) = 2*0 xx 10^(-37)` . Determine the composition of the equilibrium mixture.

Reaction between nitrogen and oxygen takes place as follows : `2 N_(2)

1.	Reaction between nitrogen and oxygen takes place as follows : `2 N_(2) (g) + O_(2) (g) hArr 2 N_(2) O (g) ` If a mixture of` 0482` mol of `N_(2)` and` 0933` mol of `O_(2)` is placed in a reaction vessel of volume 10 L and allowed to form `N_(2)O ` at a temperature for which `K_(c) = 2*0 xx 10^(-37)` . Determine the composition of the equilibrium mixture.
Answer» ` {:(,2 N_(2) (g) ,+,O_(2)(g),hArr,2 N_(2)O(g)),("Intial",0482 "mol",,0933"mol",,),("At eqm.",0482 "mol",,0.933-x//2,,x),("Molar conc." ,(0482-x)/10,,(0933-x//2)/10,,x/10):}`, As K ` = 20 xx 10 ^(-37)` is very small , this means that the amount of `N_(2) and O_(2) ` reacted (x) is very very small . Hence , at equilibrium , we have `[N_(2)] = 0* 0482 "mol"L^(-1) , [O_(2)] = 0* 0933 "mol" L^(-1) , [N_(2)O] = 01 x ` ` :. K_(c) = (01 x)^(2) /((00482)^(2) (00933)) = 2* 0 xx 10^(-37) ` (Given) On solving , this gives `x = 66 xx 10^(20)` ` :. [N_(2)O ] = 01 x 6*6 xx 10^(-21) "mol"L^(-1)`

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