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[link] shows some of the general rules about the solubility of different salts based on a number of investigations:

General rules for the solubility of salts
Salt Solubility
Nitrates All are soluble
Potassium, sodium and ammonium salts All are soluble
Chlorides, bromides and iodides All are soluble except silver, lead(II) and mercury(II) salts (e.g. silver chloride)
Sulphates All are soluble except lead(II) sulphate, barium sulphate and calcium sulphate
Carbonates All are insoluble except those of potassium, sodium and ammonium
Compounds with fluorine Almost all are soluble except those of magnesium, calcium, strontium (II), barium (II) and lead (II)
Perchlorates and acetates All are soluble
Chlorates All are soluble except potassium chlorate
Metal hydroxides and oxides Most are insoluble

Salts of carbonates, phosphates, oxalates, chromates and sulphides are generally insoluble.

Testing for common anions in solution

It is also possible to carry out tests to determine which ions are present in a solution. You should try to do each of these tests in class.

As always when working with chemicals, you must work carefully as you can easily get bad chemical burns if you spill the chemicals on yourself.

Test for a chloride

Prepare a solution of the unknown salt using distilled water and add a small amount of silver nitrate solution. If a white precipitate forms, the salt is either a chloride or a carbonate.

Cl - + Ag + + NO 3 - AgCl + NO 3 -
( AgCl is white precipitate)
CO 3 2 - + 2 Ag + + 2 NO 3 - Ag 2 CO 3 + 2 NO 3 -
( Ag 2 CO 3 is white precipitate)

The next step is to treat the precipitate with a small amount of concentrated nitric acid . If the precipitate remains unchanged, then the salt is a chloride. If carbon dioxide is formed, and the precipitate disappears, the salt is a carbonate.

AgCl + HNO 3 (no reaction; precipitate is unchanged)

Ag 2 CO 3 + 2 HNO 3 2 AgNO 3 + H 2 O + CO 2 (precipitate disappears)

Test for a sulphate

Add a small amount of barium chloride solution to a solution of the test salt. If a white precipitate forms, the salt is either a sulphate or a carbonate.

SO 4 2 - + Ba 2 + + Cl - BaSO 4 + Cl - ( BaSO 4 is a white precipitate)

CO 3 2 - + Ba 2 + + Cl - BaCO 3 + Cl - ( BaCO 3 is a white precipitate)

If the precipitate is treated with nitric acid, it is possible to distinguish whether the salt is a sulphate or a carbonate (as in the test for a chloride).

BaSO 4 + HNO 3 (no reaction; precipitate is unchanged)

BaCO 3 + 2 HNO 3 Ba ( NO 3 ) 2 + H 2 O + CO 2 (precipitate disappears)

Test for a carbonate

If a sample of the dry salt is treated with a small amount of acid, the production of carbon dioxide is a positive test for a carbonate.

Acid + CO 3 2 - CO 2

If the gas is passed through limewater and the solution becomes milky, the gas is carbon dioxide.

Ca(OH) 2 + CO 2 CaCO 3 + H 2 O (It is the insoluble CaCO 3 precipitate that makes the limewater go milky)

Test for bromides and iodides

As was the case with the chlorides, the bromides and iodides also form precipitates when they are reacted with silver nitrate. Silver chloride is a white precipitate, but the silver bromide and silver iodide precipitates are both pale yellow. To determine whether the precipitate is a bromide or an iodide, we use chlorine water and carbon tetrachloride ( CCl 4 ).

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Source:  OpenStax, Siyavula textbooks: grade 10 physical science [caps]. OpenStax CNX. Sep 30, 2011 Download for free at http://cnx.org/content/col11305/1.7
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