2AB2(g)hArr 2AB(g)+B2(g) Degree of dis...

`2AB_2(g)hArr 2AB(g)+B_2(g)`
Degree of dissociation of `AB_2` is x. What will be equation for x in terms of `K_p` and equilibrium pressure P ?

`K_p=x^3/((2+x)(1-x)^2)xxP`

`x=sqrt(P/(2K_p))`

`x=sqrt((2K_p)/P)`

`K_p=x^2/((2+x)(1-x))xxP`

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At a temperature T, a compound AB_4(g) dissociates as 2AB_4(g) hArr A_2(g)+4B_2(g) with a degree of dissociation x, which is small compared with unity. The expression of K_p in terms of x and total pressure P is :

`8P^3x^5`

`256 P^3x^5`

`4 Px^2`

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At temperature T, a compound AB_(2(g)) dissociates according to the reaction, 2AB_(2(g)) Leftrightarrow 2AB_(g) +B_(2(g)) with a degree of dissociation x, which is small compared with unity. The expression for K_p, in terms of x and the total pressure, P is

`(Px^3)/2`

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For the dissociation reaction N_(2)O_($) (g)hArr 2NO_(2)(g) , the degree of dissociation (alpha) interms of K_(p) and total equilibrium pressure P is:

`alpha=sqrt((4P+K_(p))/(K_(P)))`

`alpha=sqrt((K_(P))/(4P+K_(p)))`

`alpha=sqrt((K_(P))/(4P))`

none of these

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`2AB_2(g)hArr 2AB(g)+B_2(g)` Degree of dissociation of `AB_2` is x. What will be equation for x in terms of `K_p` and equilibrium pressure P ?

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At a temperature T, a compound AB_4(g) dissociates as 2AB_4(g) hArr A_2(g)+4B_2(g) with a degree of dissociation x, which is small compared with unity. The expression of K_p in terms of x and total pressure P is :

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`2AB_2(g)hArr 2AB(g)+B_2(g)`
Degree of dissociation of `AB_2` is x. What will be equation for x in terms of `K_p` and equilibrium pressure P ?