K(d) for dissociation of [Ag(NH(3))(2)]^...

`K_(d)` for dissociation of `[Ag(NH_(3))_(2)]^(+)` into `Ag^(+)` and `NH_(3)` is `6 xx 10^(-8)`. Calculae `E^(@)` for the following half reaction.
`AG(NH_(3))_(2)^(+) +e^(-) rarr Ag +2NH_(3)`
Given `Ag^(+) +e^(-) rarr Ag, E^(@) = 7.99V`

Similar Questions

Explore conceptually related problems

K_(d) for dissociation of [Ag(NH_(3))_(2)]^(+) into Ag^(+) and NH_(3) is 6 xx 10^(-8) . Calculae E^(@) for the following half reaction. Ag(NH_(3))_(2)^(+) +e^(-) rarr Ag +2NH_(3) Given Ag^(+) +e^(-) rarr Ag, E^(@) = 0.799V

Dissociation constant for Ag(NH_(3))_(2)^(+) into Ag^(+) and NH_(3) is 6 xx 10^(-14) . Calculate E^(@) for the half reaction. Ag(NH_(3))_(2)^(+) + e rarr Ag + 2NH_(3) Given, Ag^(+) + e rarr Ag has E^(@) = 0.799 V

The hybridisation of Ag in [Ag(NH_3)_2]^(+) complex is

The hybridisation of Ag in [Ag(NH_3)_2]^+ complex is -

The hybridisation of Ag in [Ag(NH_3)]_2^(+) complex is

Calculate The ratio of [Ag(NH_(3))_(2)]^(+)and[Ag^(+)] in 0.1 M NH_(3) solution.

The hybridisation of Ag in the complex [Ag(NH_(3))_(2)]^(+) is

calculate E^(@) of the following half -cell reaction at 298 K: Ag(NH_(3))_(2)^(+)+e^(-) rarr Ag+2NH_(3) (Ag^(+)+e^(-) rarr Ag , E_(Ag^(+)//Ag)^(@)=0.80 V Ag(NH_(3))_(2)^(+) hArr Ag^(+)+2NH_(3) K=6xx10^(-8

`K_(d)` for dissociation of `[Ag(NH_(3))_(2)]^(+)` into `Ag^(+)` and `NH_(3)` is `6 xx 10^(-8)`. Calculae `E^(@)` for the following half reaction. `AG(NH_(3))_(2)^(+) +e^(-) rarr Ag +2NH_(3)` Given `Ag^(+) +e^(-) rarr Ag, E^(@) = 7.99V`

Similar Questions

Recommended Questions

`K_(d)` for dissociation of `[Ag(NH_(3))_(2)]^(+)` into `Ag^(+)` and `NH_(3)` is `6 xx 10^(-8)`. Calculae `E^(@)` for the following half reaction.
`AG(NH_(3))_(2)^(+) +e^(-) rarr Ag +2NH_(3)`
Given `Ag^(+) +e^(-) rarr Ag, E^(@) = 7.99V`