How much AgBr could dissolve in 1.0L of ...

How much `AgBr` could dissolve in `1.0L` of `0.4M NH_(3)`? Assume that `Ag(NH_(3))_(2)^(o+)` is the only complex formed. Given: the dissociation constant for
`Ag(NH_(3))_(2)^(o+) hArr Ag^(o+) xx 2NH_(3)`,
`K_(d) = 6.0 xx 10^(-8)` and `K_(sp)(AgBr) =5.0 xx 10^(-13)`.

Similar Questions

Explore conceptually related problems

How much AgBr could dissolve in 1.0L of 0.4M NH_(3) ? Assume that Ag(NH_(3))_(2)^(o+) is the only complex formed. Given: the dissociation constant for Ag(NH_(3))_(2)^(o+) hArr Ag^(o+) + 2NH_(3) , K_(d) = 6.0 xx 10^(-8) and K_(sp)(AgBr) =5.0 xx 10^(-13) .

Calculate how much AgBR could dissolves in 1.0L of 0.4M NH_(3). K_(f) Ag(NH_(3))_(2)^(o+) = 1.0 xx 10^(8) .

What will be the Ag^(+) ion concentration in a solution of 0.2 M solution of [Ag(NH_(3))_(2)^(+)] ? Ag (NH_(3))_(2)^(+) hArr Ag^(+) +2NH_(3) , " " K_("dis")= 6.8 xx10^(-8)

E_0 for the reaction , Ag^(+) + e^(-) to Ag , is 0.8 V . Calculate E^@ for the reaction. Ag(NH_3)_(2)^(+) + e^(-) to Ag + 2NH_3, if the dissociation constant for. Ag(NH_3)_(2)^(+) into NH_3 and Ag^(+) is 6 xx 10^(-14).

How much `AgBr` could dissolve in `1.0L` of `0.4M NH_(3)`? Assume that `Ag(NH_(3))_(2)^(o+)` is the only complex formed. Given: the dissociation constant for `Ag(NH_(3))_(2)^(o+) hArr Ag^(o+) xx 2NH_(3)`, `K_(d) = 6.0 xx 10^(-8)` and `K_(sp)(AgBr) =5.0 xx 10^(-13)`.

Similar Questions

Recommended Questions

How much `AgBr` could dissolve in `1.0L` of `0.4M NH_(3)`? Assume that `Ag(NH_(3))_(2)^(o+)` is the only complex formed. Given: the dissociation constant for
`Ag(NH_(3))_(2)^(o+) hArr Ag^(o+) xx 2NH_(3)`,
`K_(d) = 6.0 xx 10^(-8)` and `K_(sp)(AgBr) =5.0 xx 10^(-13)`.