9.2gm of N(2)O(4) (g) is taken is a clos...

9.2gm of `N_(2)O_(4)` (g) is taken is a closed one litre vessel and heated till the following equilibrium is reached `N_(2)O_(4)`(g) `harr` 2`NO_(2)`(g) . At equilibrium 50% of `N_(2)O_(4)(g)` is dissociated. What is the equilibrium constant (in mole `lit^(-1)` ) ?.(M.wt.of `N_(2)O_(4)` is 92)

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9.2 grams of N_(2)O_(4(g)) is taken in a closed one litre vessel and heated till the following equilibrium is reached N_(2)O_(4(g))hArr2NO_(2(g)) . At equilibrium, 50% N_(2)O_(4(g)) is dissociated. What is the equilibrium constant (in mol litre^(-1) ) (Moleculatr weight of N_(2)O_(4) = 92 ) ?

18.4 g of N_(2)O_(4) is taken in a 1 L closed vessel and heated till the equilibrium is reached. N_(2)O_(4(g))rArr2NO_(2(g)) At equilibrium it is found that 50% of N_(2)O_(4) is dissociated . What will be the value of equilibrium constant?

In the given reaction N_(2)(g)+O_(2)(g) hArr 2NO(g) , equilibrium means that

For the following equilibrium N_(2)O_(4)(g)hArr 2NO_(2)(g) K_(p) is found to be equal to K_(c) . This is attained when :

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For the following equilibrium reaction N_(2)O_(4)(g)hArr 2NO_(2)(g) , NO_(2) is 50% of the total volume at a given temperature. Hence, vapour density of the equilibrium mixture is :

9.2gm of `N_(2)O_(4)` (g) is taken is a closed one litre vessel and heated till the following equilibrium is reached `N_(2)O_(4)`(g) `harr` 2`NO_(2)`(g) . At equilibrium 50% of `N_(2)O_(4)(g)` is dissociated. What is the equilibrium constant (in mole `lit^(-1)` ) ?.(M.wt.of `N_(2)O_(4)` is 92)

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