[" Hence active mass of "CCl(4)=10*26mol...

[" Hence active mass of "CCl_(4)=10*26moleditre],[" Example "6." For the raction "Hg(CN)2l^(-)=Ag^(+)+2CV^(-)," the equilibritim constant at "25^(@)C" is "],[4.0times10^(-19)Calcular" the reacion "Hg(CN)" zatom in a solution which was orginally "0.10molar" in "KCN],[" and "0.03" molar in "AgNO_(3)]

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For the reaction: [Ag(CN)_2]^- hArr Ag^+ + 2CN^- the equilibrium constant K_c at 25^@C is 4.0 xx 10^(-19) then the silver ion concentration in a solution which was originally 0.1 molar in KCN and 0.03 molar in AgNO_3

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) .

[" Hence active mass of "CCl_(4)=10*26moleditre],[" Example "6." For the raction "Hg(CN)2l^(-)=Ag^(+)+2CV^(-)," the equilibritim constant at "25^(@)C" is "],[4.0times10^(-19)Calcular" the reacion "Hg(CN)" zatom in a solution which was orginally "0.10molar" in "KCN],[" and "0.03" molar in "AgNO_(3)]

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