17.61)
chemical equation : Cu+ + 2 CN- ---------------------> Cu(CN)2-
Kf expression : Kf = [Cu(CN)2-] / [Cu+] [CN-]2
17.62)
chemical equation : Fe3+ + 6 CN- ------------------> Fe(CN)63-
Kf expression : Kf = [Fe(CN)63-] /[Fe3+ ] [CN-]6
17.61 Write the chemical equation for the formation of the Cu(CN)2 ion. Then write the K Cusunt 2 CNas expression....
Determine the oxidation state and coordination number of the metal ion in each complex ion. [Cu(CN)2]1- [Ag(NH3)2]1+ [Cu(OH2)4]2+ [Pt(NH3)2Cl2] [Fe(CN)6]4- [Fe(OH2)6]2+ [Zn(CN)4]2- [Cd(NH3)4]2+ [Cu(CO)5] [CuCl5]3- [Fe(EDTA)]2- [Pt(en)2]2+
The K. of Cul is 1.1x10 and the Krfor the [Cu(CN), complex ion is 1.0x10 - Write the equilibrium reaction associated with the given K value b) Write the equilibrium reaction associated with the given Kr value. Find the final concentration of cyanide ion in a solution containing excess Cul and 0.60 M NaCN
In aqueous solution the Hg ion forms a complex with four iodide anions. Write the formation constant expression for the equilibrium between the hydrated metal ion and the aqueous complex. Under that, write the balanced chemical equation for the first step in the formation of the complex. Write the First Step: First Step:
In aqueous solution the Hg ion forms a complex with four iodide anions. Write the formation constant expression for the equilibrium between the hydrated metal ion and...
3. Iron(II) nitrate and hydrocyanic acid react to form the hexacyanoferrate(II) ion, [Fe(CN).]*(aq), with a formation constant of 1.438x10's. This complex ion has an intense blue color in solution. a. If you add 182.734g of iron(II) nitrate solid to 750.0mL of 0.8324M CN'(aq) solution, what is the concentration of CN'(aq) still in solution when the reaction reaches equilibrium? b. Copper(II) also forms a complex ion with cyanide ions, tetracyanocuprate(II)ion, [Cu(CN).] (aq), with a formation constant of 1.028x10”. This complex ion...
7. Enthalpy of Formation. Write a balanced chemical equation using the cu standard states as reactants for the formation of 1 mole of MgCO3(s) as the prou equation using the constituent elements in their
Write a balanced chemical equation for the oxidation reaction between Caro’s acid (H2SO5) and CN– ion in aqueous solution.
Iron(II) nitrate and hydrocyanic acid react to form the hexacyanoferrate(II) ion, [Fe(CN)6] -4 (aq), with a formation constant of 1.438x1035 . This complex ion has an intense blue color in solution . a. If you add 182.734g of iron(II) nitrate solid to 750.0mL of 0.8324M CN-1 (aq) solution, what is the concentration of CN-1 (aq) still in solution when the reaction reaches equilibrium? b. Copper(II) also forms a complex ion with cyanide ions, tetracyanocuprate(II) ion, [Cu(CN)4] -2 (aq), with a...
Fe(CN)63- has a Kd of 1 x10-42. Write the equation for the dissociation of the complex ion. Would you expect the reaction mixture to be mostly reactants or products?
In aqueous solution the Pb2+ ion forms a complex with four chloride anions. Write the formation constant expression for the equilibrium between the hydrated metal ion and the aqueous complex. Under that, write the balanced chemical equation for the first step in the formation of the complex.
In aqueous solution the Ag+ ion forms a complex with two cyanide anions. Write the formation constant expression (Kf) for the equilibrium between the hydrated metal ion and the aqueous complex. Under that, write the balanced chemical equation for the first step in the formation of the complex.