The degree of dissociation of PC1(5) (al...

The degree of dissociation of `PC1_(5)` `(alpha)` obeying the equilibrium, `PC1_(5)hArrPC1_(3) + C1_(2)`, is approximately related to the pressure at equilibrium by (given `alpha ltlt 1`) :

`alpha prop P`

`alpha prop (1)/(sqrt(P))`

`alpha prop (1)/(P^(2))`

`alpha prop (1)/(P^(4))`

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The degree of dissociation of PCI_(5) (alpha) obeying the equilibrium, PCI_(5)hArrPCI_(3)+CI_(2) , is approximately related to the presure at equilibrium by (given alphaltlt1 ):

`alphapropP`

`alphaprop(1)/sqrt(P)`

`alphaprop(1)/P^(2)`

`alphaprop(1)/(P^(4)`

The degree of dissociation of N_(2)O_(4)(1) obeying the equilibrium, N_(2)O_(4) (g) hArr 2NO_(2)(g) , is approximately related to the pressure at equilibrium by :

`alpha prop P`

`alpha prop (1)/(sqrt(P))`

`alpha prop (1)/(P^(2))`

`alpha prop (1)/(P^(4))`

The degree of dissociation of PCl_(5)(g) for the equilibrium PCl_(5)(g)hArrPCl_(3)(g)+Cl_(2)(g) is approximately releated to the pressure at equilibrium (P) by the relation [altlt1]

`a prop P`

`alpha prop (1)/(sqrtP)`

`alpha prop (1)/(p^(2))`

`alpha prop (1)/(p^(4))`

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Explore conceptually related problems

If dissociation for reaction, PC1_(5)hArrPC1_(3) + C1_(2) is 20% at 1 atm pressure. Calculate K_(c) .

The degree of dissociation 'alpha' of the reaction N_(2)O_(4)(g)hArr 2NO_(2)(g) Can be related of K_(p) as [Given : Total pressure at equilibrium = P]

Assertion: Association of an inert gas at constant pressure to dissociation equilibrium of PC1_(5) hArr PC1_(3) + C1_(2) favours forward reaction. Reason: K_(c) =(alpha^(2))/(V(1 - alpha)) for the dissociation equilibrium of PC1_(5) where alpha is degree of dissociation of PC1_(5) .

For the equilibrium, PCl_(5) hArr PCl_(3) +Cl_(2), K_(c )=(alpha^(2))/((1-alpha)V) temperature remaining constant.

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The degree of dissociation of `PC1_(5)` `(alpha)` obeying the equilibrium, `PC1_(5)hArrPC1_(3) + C1_(2)`, is approximately related to the pressure at equilibrium by (given `alpha ltlt 1`) :

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The degree of dissociation of PCI_(5) (alpha) obeying the equilibrium, PCI_(5)hArrPCI_(3)+CI_(2) , is approximately related to the presure at equilibrium by (given alphaltlt1 ):

The degree of dissociation of N_(2)O_(4)(1) obeying the equilibrium, N_(2)O_(4) (g) hArr 2NO_(2)(g) , is approximately related to the pressure at equilibrium by :

The degree of dissociation of PCl_(5)(g) for the equilibrium PCl_(5)(g)hArrPCl_(3)(g)+Cl_(2)(g) is approximately releated to the pressure at equilibrium (P) by the relation [altlt1]

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A2Z-CHEMICAL EQUILIBRIUM-Degree Of Dissociation, Vapour Density And Simultaneous Equilibria