For the reaction Ag(CN)(2)^(ɵ)hArr Ag^...

For the reaction
`Ag(CN)_(2)^(ɵ)hArr Ag^(o+)+2CN^(ɵ)`, the `K_(c )` at `25^(@)C` is `4 xx10^(-19)` Calculate `[Ag^(o+)]` in solution which was originally `0.1 M` in `KCN` and `0.03 M` in `AgNO_(3)`.

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`{:(2"KCN",+,"AgNO"_(3),rarr,"Ag"("CN")_(2)^(ɵ),+,KNO_(3),+,K^(o+)),(0.1,,0.03,,0,,0,,0),((0.1-0.06),,0,,0.03,,0.03,,0.30):}`
`:. [Ag(CN)_(2)^(ɵ)]=0.03 M`
`{:("Now use","Ag(CN)"_(2),hArr,"Ag"^(o+),+,2CN^(ɵ)),(,0.03,,0,,0.04),(,(0.03-a),,a,,0.04+a):}`
Since `K_(c )` is too small and dissociation of `Ag(CN)_(2)^(-)` is very less and thus,
`:. 0.04+a~~0.04` and `0.03-a=0.03`
`Ag(CN)_(2)^(ɵ)=0.03, [Ag^(o+)]=a, [CN^(ɵ)]=0.04`
Now, `K_(c )=([Ag^(o+)][CN^(ɵ)]^(2))/([Ag(CN)_(2)^(-)])=(axx(0.04)^(2))/(0.03)`
`:. a=7.5xx10^(-18)`

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For the reaction `Ag(CN)_(2)^(ɵ)hArr Ag^(o+)+2CN^(ɵ)`, the `K_(c )` at `25^(@)C` is `4 xx10^(-19)` Calculate `[Ag^(o+)]` in solution which was originally `0.1 M` in `KCN` and `0.03 M` in `AgNO_(3)`.

Text Solution

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CENGAGE CHEMISTRY-CHEMICAL EQUILIBRIUM-Archives (Subjective)

For the reaction
`Ag(CN)_(2)^(ɵ)hArr Ag^(o+)+2CN^(ɵ)`, the `K_(c )` at `25^(@)C` is `4 xx10^(-19)` Calculate `[Ag^(o+)]` in solution which was originally `0.1 M` in `KCN` and `0.03 M` in `AgNO_(3)`.