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The Naming of Chemical Compounds

Science > Chemistry > Introduction to Chemistry > Naming of Chemical Compounds

In this article, we shall study the method of naming of chemical compounds

In a chemical reaction, the molecular composition changes and it is represented by a chemical equation. In a chemical equation, the various substances involved as reactants or products are written in the form of symbols and formulae. These symbols and formulae are shorthand notations of the molecules involved as reactants or products.

Symbol of an Element:

A symbol is a representation of an atom of an element. These are unique 1,2, and 3 letter symbols. The first letter of an Element symbol is always a capital letter and remaining letters are written in lower case only. Many of the element symbols reflect the English name of the element such as Oxygen (O), hydrogen (H), carbon (C), nitrogen.(N), etc. These are single letter symbols. Examples of double letter symbols are aluminium (Al), Magnesium (Mg), calcium (Ca), etc.. Some symbols are derived from Latin names Aurum (gold) (Au), Argentum (silver), Stannum (tin) (Sn), Plumbum (lead) (Pb), etc.(Ag),

The formula of Element or Compound:

The formula is a representation of the actual number of atom or atoms of each element present in one molecule of the substance. The formula of element or compound is written by making use of the symbols of the respective elements. The formula for nitrogen is N2, that of oxygen is O2, that of carbon dioxide is CO2, etc.

Radicals or Ions:

A radical is a group of atoms of elements carrying a charge, e.g., chlorate [ClO3].

Radicals or ions are formed by losing or gaining electrons. When an electron is gained the group of atoms acquire a negative charge and is called a negative radical or negative ion.  When an electron is lost the group of atoms acquire a positive charge and is called a positive radical or positive ion. Depending upon the number of charges carried by radicals they are further classified as monovalent, bivalent (divalent), trivalent and tetravalent radicals or ions and so on.

Positive Radicals:

ValencyRadicalSymbolIon
MonovalentHydrogenH+
SodiumNaNa +
PotassiumK+
Mercurous or Mercury (I)HgHg +
Cuprous or Copper (I)CuCu +
Argenous or silver (I)AgAg +
Divalent [2]ZincZnZn2+
MagnesiumMgMg2+
CalciumCaCa2+
Cupric or Copper (II)CuCu2+
Mercuric or Mercury (II)HgHg2+
Frrrous or Iron (II)FeFe2+
BariumBaBa2+
Stanous or Tin (II)SnSn2+
Plumbous or Lead (II)PbPb2+
Trivalent [3]AluminiumAlAl3+
Ferric or Iron (III)FeFe3+
Tetravalent [4]Stanic or Tin (IV)SnSn4+
Plumbic or Lead (IV)PbPb4+

Note:

In the case of the electropositive element showing variable valency. For lower valency, its name is written in form ending with ‘ous’ while with higher valency its name is written ending with ‘ic’. For example, iron shows two valencies 2 and 3. the iron showing lower valency 2 is named as ferrous and by the IUPAC system, it is named Iron (II).  the iron showing higher valency r is named as ferric and by the IUPAC system, it is named Iron (III).

Negative Radicals:

ValencyRadicalSymbolIon
MonovalentHydroxyl or hydroxideOHOH 
FluorideF
ChlorideClCl 
BromideBrBr 
IodideI
NitriteNO2NO
NitrateNO3NO3
HypochloriteClOClO 
ChloriteClO2ClO
ChlorateClO3ClO
PerchlorateClO4ClO
HypobromiteBrOBrO 
BromiteBrO2BrO
BromateBrO3BrO
PerbromateBrO4BrO
HypoioditeIOIO 
IoditeIO2IO
IodateIO3IO3
PeriodateIO4IO
AcetateCH3COOCH3COO 
FormateHCOOHCOO 
BisulphideHSHS 
Bisulphite [Hydrogen sulphite]HSO3HSO
Bisulphate [Hydrogen sulphate]HSO4HSO
Bicarbonate [Hydrogen carbonate]HCO3HCO
CyanideCNCN
CyanateCNOCNO
ThiocyanateSCNSCN
PermanganateMnO4MnO4
OxideOO2
Divalent [2]
PeroxideO2O22-
CarbonateCO3CO32-
SulphideSS2-
SulphiteSO3SO32-
SulphateSO4SO42-
ThiosulphateS2O3S2O32-
Biphosphate [Hydrogen phosphate]HPO4HPO42-
ChromateCrO4CrO42-
DichromateCr2O7Cr2O72-
OxalateC2O4C2O42-
Trivalent [3]PhosphitePO3PO33-
PhosphatePO4PO43-

Derivation of Formulae of Compound:

Steps Involved:

  • First, write electropositive element (say A) in its radical form ( Ax+) followed by the electronegative element (say B)  in its radical form ( Ay-). (Use tables for radicals).
  • Below the element write their numeric charge without considering nature. ( x and y)
  • Swap the numbers obtained in step 2 i.e. (y and x)
  • Now the molecule should be electrically neutral. Hence the formula of the molecule is  AyBx

Formula for ferric chloride:

Naming of Chemical Compounds

The formula for ferric chloride is FeCl3.

Formula for ferric oxide:

Naming of Chemical Compounds

The formula for ferric oxide is Fe2.O3.

Formula for Aluminium hydroxide:

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The formula for Aluminium hydroxide is Al(OH)3.

Formula for magnesium phosphite:

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The formula for magnesium phosphate is Mg3(PO3)2.

Naming Binary Compounds:

General Prefixes Used in Naming:

NumberMultiplier
1mono-
2di-
3tri-
4tetra-
5penta-
6hexa-
7hepta-
8octa-
9nona-
10deca-

Steps Involved in Naming:

  • Write the molecular formula. Identify radicals.
  • Find the valencies of constituent groups. It is important for elements showing variable valency.
  • Name of electropositive or less electronegative element/ group is written first. (due consideration to be given to elements showing variable valency). followed by name of the electronegative or more electronegative element or group.
CompoundName
NaClSodium chloride
MgCl2Magnesium chloride
CaCl2Calcium chloride
BaOBarium oxide
H2SHydrogen sulphide
FeCl3Ferric chloride or Iron (II) chloride
FeCl2Ferrous chloride  or Iron (III) chloride
SnCl2Stannous chloride  or Tin (II) chloride
SnCl4Stannic chloride  or Tin (IV) chloride
CuClCuprous chloride or  Copper (I) chloride
CuCl2Cupric Chloride  or  Copper (II) chloride
COCarbon monoxide
CO2Carbon dioxide
SO2Sulphur dioxide
SO3Sulphur trioxide
CCl4Carbon tetrachloride
P2O5Phosphorous pentaoxide
UF6Uranium hexafluoride

Naming of Acids:

Binary Acids:

They have general formula HA. The negative radical consists of a single non-metal. Use hydro as prefix and ic suffix.

Binary AcidName
HFHydrofluoric acid
HClHydrochloric acid
HBrHydrobromic acid
HIHydroiodic acid

Binary Acid  Name:

Oxyacids:

The negative radical consists of non-metal and oxygen. If the percentage of oxygen is less, then suffix ous is used. If the percentage of oxygen is more, then the suffix ic is used.

OxyacidName
H2SO3Sulphurous acid
H2SO4Sulphuric acid
HNO2Nitrous acid
HNO3Nitric acid
H3PO3Phosphorous acid
H3PO4Phosphoric acid

If acid contains less number of oxygen than its corresponding ‘ous’ acid a prefix hypo is given to the negative radical. If acid contains more number of oxygen than its corresponding ‘ic’ acid a prefix per is given to the negative

AcidName
HClOHypochlorous acid
HClO2Chlorous acid
HClO3Chloric acid
HClO4Perchloric acid

Naming of Bases:

Base have general formula BOH. They contain hydroxyl (OH-) group. Metal is the electropositive radical and hydroxyl group is negative radical. The name of metal or group is written first followed by the word hydroxide.

BaseName
NaOHSodium hydroxide
KOHPotassium hydroxide
Al(OH)3Aluminium hydroxide
Mg(OH)2Magnesium hydroxide
NH4OHAmmonium hydroxide

Naming of Salts:

Salt is assumed to be a product of neutralization reaction between acid and base. The positive radical of salt comes from the base while the negative radical comes from the acid. The name of salt is written with positive radical followed by negative radical.

In case of oxyacids, if the negative radical is derived from ic acid the suffix ate is used for naming the salt. if the negative radical is derived from ous acid the suffix ite is used for naming the salt.

Salts involving Binary acids:

SaltName
NaClSodium chloride
NH4ClAmmonium chloride
CH3COONaSodium acetate
MgCl2Magnesium chloride
KBrPotassium bromide
KIPotassium iodide

Salts involving oxyacids:

SaltCorresponding  AcidSuffixName
ZnSO4Sulphuric acid ( H2SO4)ateZinc sulphate
NaNO3Nitric acid (HNO3)ateSodium nitrate
AlPO4Phosphoric acid (H3PO4)ateAluminium phosphate
CaSO3Sulphurous acid ( H2SO3)iteCalcium sulphite
ZnNO2Nitrous acid ( HNO2)iteZinc nitrite
Mg(PO)2Magnesium phosphateiteMagnesium phosphite

In next article, we shall study next chapter: Laws of chemical combinations. In which we shall study dalton’s atomic theory, the law of conservation of mass, the law of definite proportion, the law of multiple proportions, the law of reciprocal proportions, Gay-Lussac’s law of combining volume.

Previous Topic: Methods of Separation of Mixtures

Next Topic: Laws of Chemical Combinations

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