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How to form salts

The reaction of metals with diluted acids: Metals which come before hydrogen in chemical activity series (which we studied last year) replace it in its diluted acids solutions forming salt and hydrogen gas

Active metal + diluted acid à Salt of acid + Hydrogen

Zn(s) + H2SO4 à ZnSO4 + H2 – (g)

The reaction of metal oxides with acids: This method is usually used in the case of the difficult of the reaction of metal with acid due to the danger of reaction or the decrease of metal acitivity

Metal oxide + Acid à water + salt of acid

CuO(s) + H2SO4 à CuSO4 (aq) + H2O(l)

The reaction of metal hydroxide with acids: This method is valid in the case of soluble metal hydroxides, which are form Alkalis

Acid + Alkali à Salt + Water

HCl (aq) + NaOH (aq) à NaCl(aq) + H2O (l)

Neutralization reaction: The reaction of acids with alkalis forming water and salts

The importance of neutralization reactions: They are used in chemical analysis process in order to calculate the concentration of an acid or alkali using acids and alkalis with known concentrations in the presence of suitable indicators.

The reaction of metal carbonates (or bicarbonates) with acids: stable carbonate acid salts can be replaced by stable acids forming the new acid salt and carbon dioxide gas. This reaction is used to test acidity

Na2CO3 (s) + 2HCl (aq) à 2NaCl(aq) + H2O(l) + CO2 (g) -

Nomenclature of salts

Anion: Negative ion

Cation: Positive ion

à A salt is formed when the negative ion (anion) of an acid (Y-) binds with the positive ion (cation) of a base (X+) forming salt (XY). Thus, the chemical name of a salt is composed of two terms (Such as sodium chloride and potassium chloride)

à The 1st term of salt chemical name describes the negative ion of acid (Anion) while the 2nd term describes the positive ion of base (Cation)

à The chemical formula of a salt depends on the valency of the anions and cations forming them (the following table mentions some acids, their structures, and the salts prepared by them)

Salts prepared by acid Anion The acid
- Potassium nitrate (KNO3) - lead nitrate Pb(NO3)2 - iron nitrate III Fe(NO3)3 Nitrates NO3 - Nitric acid HNO3
- Sodium chloride (NaCl) - Magnesium chloride MgCl2 - Aluminium chloride AlCl3 Chloride Cl- Hydrochloric acid HCl
- Potassium acetate CH3COOK - Copper acetate (CH3COO)2Cu - Iron acetate III (CH3COO)3 Fe Acetate CH3COO- Acetic acid CH3COOH
- Sodium sulphate Na2SO4 - Sodium bisulphate NaHSO4 - Copper sulphate CuSO4 - Copper bisulphate CuHSO4 Sulphate (SO4)-2 Bisulphate (HSO4)- Sulphuric acid H2SO4
- Sodium carbonate Na2CO4 - Sodium bicarbonate Na2HCO4 - Calcium carbonate CaCO3 - Magnesium bicarbonate Mg(HCO3)2 Carbonate (CO3) Bicarbonate (HCO3) Carbonic acid H2CO3

We notice from the previous table that:-

1- Some acids have two kinds of salts because their molecules have 2 hydrogen atoms (dibasic acids), Dibasic acids (such as sulphuric and carbonic acids) have two kinds of salts because the molecules of each of them have 2 hydrogen atoms.

Tribasic acids (such as phosphoric acid) have three kinds of salts because their molecules contain 3 hydrogen atoms

2- The names of salts which contain hydrogen in their anions are called " bi____" " Hydrogen ___ __"

à HSO4- can be called " Bi sulphate" or " Hydrogen sulphate"

3- Numbers II and III indicates the valency of the metal bound to the anion of the acid, (Such numbers are written in cases of multivalent metals – metal having more than one valence such as iron)

Remember

Valence: The no. of electrons gained, given, or shared by atoms

The valence of metals: The no. of electrons that metal atoms lose during chemical reaction

The valence of nonmetals: The no. of electrons that nonmetal atoms gain during chemical reaction

4- The acidic anion of salts is written on the right, while the basic cation is written on the left

à NaCl (the basic cation in this salt is Na and written on the left, while the acidic anion is Cl and written on the right)

5- In the case of organic acids (such as acetic acid) the anion of acid is written on the left (such as Potassium acetate CH 3COO K)

à Some salts dissolve quickly in water, some of them dissolve in hot or cold water. There are also salts that don't dissolve in water

Solubility of water Salts
They dissolve in water - Salts of sodium, potassium and ammonium
They dissolve in water - Nitrates
They dissolve in water (except for calcium, barium, lead and silver sulphates) - Sulphates
They dissolve in water - Bicarbonates
They don't dissolve in water (except for sodium, ammonia and potassium) - Carbonates
They all dissolve in cold water - lead chloride (PbCl2) dissolves in hot water - Mercury (HgCl2) and silver chloride (AgCl) don't dissolve in water - Chloride

Aqueous solutions of salts are different in their properties:-

à They may have acidic effect if the acid is strong and the base is weak such as Ammonium chloride (NH 4Cl)

à They may have basic effect if the acid is weak and the base is strong such as sodium carbonate (Na 2CO3)

à They may be neutral if the strength of the acid and base are equal such as Acetic acid (CH 3COOH)

Arrhenius acid: The substance which disassociate in water producing one or more positive hydrogen ions (H+)

Arrhenius base: The substance which disassociate in water producing one or more negative hydroxide ions (OH-)

Bronsted-Lowry acid: The substance that loses protons during chemical reaction

(proton donor)

Bronsted-Lowry base: The substance that has the ability to gain protons (proton acceptor)

Conjugate acid: The substance formed when a base gains proton

Conjugate base: The substance formed when an acid loses proton

Lewis acid: The substance which gains one or more electrons

Lewis base: The substance which loses one or more electrons

Indicators: weak acids and bases whose colours change by the change of solution

pH: A method used for determining the acidity or basicity of a solution in numerical values ranging from 0 to 14

1- There aren't any free protons in the aqueous solutions of acids

because they bond with water molecules forming hydronium ions (H3O +)

2- Ammonia is considered as a base although it doesn't have hydroxide groups in its structure

Because according to Lewis theory, ammonia accepts protons from water molecules forming hydronium ions.


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