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

What is the hybridisation of BF_3 and NH_3 .

Specify the coordination geometry around and the hybridisation of N and B atoms in 1 : 1 complex of BF_(3) and NH_(3) .

Specify the coordination geometry around and the hybridisation of N and B atoms in 1 : 1 complex of BF_(3) and NH_(3) .

Predict the hybridisation and geometry of the following complexes. (a) " " [NiBr_(4)]^(2-) " " (b) [AuCl_(4)]^(-) " " ( c) [Pt(NH_(3))_(4)]^(2+)

Ag^(+) + NH_(3) ltimplies [Ag(NH_(3))]^(+), k_(1)=6.8 xx 10^(-5) [Ag(NH_(3))]^(+) + NH_(3) ltimplies [Ag(NH_(3))_(2)]^(+) , k_(2) = 1.6xx10^(-3) The formation constant of [Ag(NH_(3))_(2)]^(+) is :

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

Calculate the effective atomic number of silver in [Ag(NH_3)_2]^(+)

An octahedral complex of Co^(3+) is diamagnetic . The hybridisation involved in the formation of the complex is :

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)

Given that at 25^@C [Ag(NH_(3))_(2)]^(+) +e^(0) to Ag_((s))+2NH_(3) E^(0)=0.02V and Ag^(+)+1e^(-) to Ag_((s))" " E^(0)=0.8V Hence the order of magnitude of equilibrium constant of the reaction [Ag(NH_(3))_(2)]^(+) Leftrightarrow Ag^(+) +2NH_(3) , will be (antilog 0.22=1.66)