Given the following equilibrium constants,
Cd(IO₃) ₂ K_sp =
Cd(NH₃) ₄²⁺K_f =
Determine K for the dissolution of the sparingly soluble salt Cd(IO₃) ₂ in aqueous ammonia (shown below) .Cd(IO₃) ₂(s) + 4NH₃(aq) Cd(NH₃) ₄²⁺(aq) + 2IO₃^-(aq)

Question

Given the following equilibrium constants,
Cd(IO₃) ₂ K_sp =

Given the following equilibrium constants, Cd(IO<sub>3</sub>) <sub>2</sub> K<sub>sp</sub> = Cd(NH<sub>3</sub>) <sub>4</sub><sup>2+ </sup>K<sub>f</sub><sub> </sub> = Determine K for the dissolution of the sparingly soluble salt Cd(IO<sub>3</sub>) <sub>2</sub> in aqueous ammonia (shown below) .Cd(IO<sub>3</sub>) <sub>2</sub>(s) + 4NH<sub>3</sub>(aq) Cd(NH<sub>3</sub>) <sub>4</sub><sup>2+</sup>(aq) + 2IO<sub>3</sub><sup>-</sup>(aq) A) B) C) D) 4.3 E)

Cd(NH₃) ₄²⁺K_f =

Determine K for the dissolution of the sparingly soluble salt Cd(IO₃) ₂ in aqueous ammonia (shown below) .Cd(IO₃) ₂(s) + 4NH₃(aq)

Cd(NH₃) ₄²⁺(aq) + 2IO₃^-(aq)

Quizplus · Accepted Answer

The Answer of Given the following equilibrium constants, Cd(IO₃)₂ K_sp = Cd(NH₃)₄²⁺K_f = Determine K for the dissolution of the sparingly soluble salt Cd(IO₃)₂ in aqueous ammonia (shown below).Cd(IO₃)₂(s)+ 4NH₃(aq) Cd(NH₃)₄²⁺(aq)+ 2IO₃^-(aq) D) 4.3

Given the Following Equilibrium Constants