Identification of metallic and non-metallic ions
Francine Taylor-Campbell, Contributor

MAIN POINTS

• Metallic ions or cations are identified based on the colour and solubility of the hydroxides formed from their reaction with aqueous ammonia and sodium hydroxide.
• Non-metallic ions or anions are generally identified based on the evolution and identification of gases produced when the compounds are heated or reacted with acids. The colour and solubility of precipitates formed on reaction with barium ions and ammonia (for the halide ions) are also used.

Let us summarise the reactions of the metallic ions; Pb²⁺, Al³⁺, Ca²⁺, Zn²⁺, Fe³⁺, Fe²⁺, NH₄⁺ and Cu²⁺ with aqueous ammonia and sodium hydroxide.

Fe²⁺ produces a dirty green precipitate which is insoluble in excess aq NH₃ and NaOH.

Fe³⁺ produces a rusty brown precipitate which is insoluble in excess aq NH₃ and NaOH

Cu²⁺ forms a blue precipitate which is insoluble in excess aq NaOH, but soluble in excess aq NH3.

These cations can clearly be identified based on their colours alone.

Al³⁺ and Pb²⁺ both form white precipitates when reacted with aq. NaOH and NH₃. In aq NaOH, the precipitates are soluble in excess while in aq NH3, they are insoluble in excess. As can be seen, Al³⁺ and Pb²⁺ give the same results, so to differentiate between them, other reactions must be taken into consideration. Pb²⁺ will form precipitates with I^-, Cl^- and SO₄^2- ions (PbI₂ (yellow), PbCl2 (white), and PbSO4 (white), while Al³⁺ will not.

Two other cations form white precipitates. Zn²⁺ forms a white precipitate, which is soluble both in excess aq NaOH and NH3. Ca²⁺ forms a white precipitate, which is insoluble in excess NaOH, but does not form a precipitate when treated with ammonia.

The NH₄⁺ ion can be identified based on the evolution of ammonia (NH3) gas when warmed with aq NaOH.

The identification of the anions is a lot more complicated. The ones we are concerned with are CO₃^2-, SO₄^2-, SO₃^2-, NO₃^-, Br^-, Cl^- and I^-.

One way to do this is to heat the compound and identify the gas produced.

CO₃^2- ====== (heat) produces the gas CO₂

NO₃^- ===== (heat) gives off O₂ and/or NO₂

SO₃^2- ===== (heat) gives off SO₂

These gases can be identified by their characteristic tests.

CO₂ is weakly acidic and turns lime water (Ca(OH)₂) milky.

O₂ is neutral and relights a glowing splint.

NO₂ is a red-brown/yellow-brown acidic gas.

SO₂ is an acidic gas, which turns acidified potassium manganate (VII) solution from purple to colourless and changes acidified potassium dichromate (VI) from orange to green.

NH₃ is an alkaline gas which forms dense white fumes with hydrogen chloride gas.

Some anions react with dilute and concentrated acids (if they are added to the solid).

CO₃^2- reacts with dil and conc. acid to release CO2.

SO₃^2- forms SO₂ gas on reaction with dil and conc. acid.

If conc. H₂SO_s acid is added to a solid containing the halide ions (I^-, Cl^-, and Br^-), the following gases can be formed; HI(g) which decomposes to I₂, HCl(g) and HBr which decomposes to Br₂.

The halide ions, in solution, can be identified differently based on their reaction with silver nitrate solution (AgNO₃) and the solubility of the precipitate formed in ammonia.

Cl^- forms a white precipitate with AgNO₃ solution, which is soluble in aq NH₃.

Br^- forms a cream precipitate with AgNO₃, which is partially soluble in aq NH₃.

I^- forms a light yellow precipitate, which is insoluble in aq NH₃.

Finally, some anions form precipitates with a solution of Ba²⁺ ions.

CO₃^2- forms a white precipitate which dissolves on addition of acid to form CO₂.

SO₃^2- forms a white precipitate which dissolves on addition of acid to give SO₂.

SO₄^2- forms a white precipitate which is insoluble in dilute acid.

Prime Minister Bruce Golding plays with a resident at Martha's House, a Mustard Seed Communities charity, at the official opening of the home's new $12-million facilities in Spanish Town, St Catherine, recently. Martha's House's original structure was razed by fire in 2009. - Ian Allen/Photographer

Francine Taylor-Campbell is an independent contributor. Send questions and comments to kerry-ann.hepburn@gleanerjm.com