Chemical Symbols & Formulae

Elements

Elements are often represented using their chemical symbol from the Periodic Table

Chemical symbols of elements table

Element	Symbol	Element	Symbol
Lithium	Li	Calcium	Ca
Tungsten	W	Gold	Au
Aluminium	Al	Silicon	Si

Seven elements exist as diatomic molecules, which means that they are molecules made of two atoms:
1. Hydrogen, H₂
2. Nitrogen, N₂
3. Oxygen, O₂
4. Fluorine, F₂
5. Chlorine, Cl₂
6. Bromine, Br₂
7. Iodine, I₂

Periodic Table identifying the 7 diatomic elements

J~CqhUhr_diatomic-periodic-table

The highlighted elements all exist as diatomic molecules with the formula X₂

These 7 elements are also classed as simple molecules

Simple molecules

Simple molecules are substances that are made from two or more atoms chemically joined together
- The atoms in simple molecules are non-metals, e.g. carbon, hydrogen, nitrogen
Simple molecules can be elements or compounds and are represented using chemical formulae
The chemical formula of a simple molecule shows:
- The atoms involved, given by the chemical symbol
  AND
- The number of atoms, given by the subscript (little) number after a chemical symbol

Examples of simple molecule chemical formulae

Substance	Chemical formula	Element / compound	Made from
Hydrogen	H₂	Element	2 hydrogen atoms
Chlorine	Cl₂	Element	2 chlorine atoms
Water	H₂O	Compound	2 hydrogen atoms 1 oxygen atom
Methane	CH₄	Compound	1 carbon atom 4 hydrogen atoms
Ammonia	NH₃	Compound	1 nitrogen atom 3 hydrogen atoms
Sulfuric acid	H₂SO₄	Compound	2 hydrogen atoms 1 sulfur atom 4 oxygen atoms

Representing Molecules

Elements and compounds can exist as simple molecules
- It is important to note that simple molecules are covalent substances
- In simple terms, this means that they do not contain metal atoms
Simple molecules are often represented in diagrams
These diagrams show:
- The number of atoms involved
- How the atoms are arranged

There are 2 main styles of diagram
- Using the chemical symbols from the Periodic Table

Representing simple molecules with chemical symbols

y2R6g1eD_simple-molecules---chemical-symbols

When simple molecules are represented using the chemical symbols of the atoms, there is no need for a key

- Using different coloured atoms with a key

Representing simple molecules with a key

TgH8AbI7_simple-molecules---colour-and-key

When simple molecules are represented using coloured atoms, a key is used to show the colours for each type of atom

Using the water, carbon dioxide and methane examples, it is important to know that these representations also show the arrangement of the atoms in the molecule
Water, H₂O
- The hydrogen atoms are on either side of the oxygen atom
- It does not have two hydrogen atoms and an oxygen atom all joined together in a row
Carbon dioxide, CO₂
- The oxygen atoms are on either side of the carbon atom
- It does not have one carbon atom and two oxygen atoms all joined together in a row
Methane, CH₄
- The four hydrogen atoms surround the central carbon atom
- It does not have the carbon atom and four hydrogen atoms all joined together in a row

Exam Tip

In an exam, you may not have different colours available to show the different atoms
In this case, you could use different patterns to show the different atoms in a simple molecule, e.g.:

hkHJi6TC_simple-molecules---water---pattern-and-key

Formulae of Ionic Compounds

Metals and non-metals react together to form ionic compounds
- Ionic compounds are not simple molecules
- Remember: Simple molecules are formed when non-metals react together to form compounds
Ionic compounds involve the metal losing electrons and the non-metal gaining electrons to form ions

Some ions that you will be expected to be able to use, because they are stated in the exam specification, include:
- Hydrogen ions, H⁺ - sometimes referred to as protons
- Group 1 ions, e.g. Li⁺, Na⁺, K⁺
- Group 7 ions, F^–, Cl^–, Br^–
- Copper(II) ions, Cu²⁺
- Iron(II) ions, Fe²⁺
- Iron(III) ions, Fe³⁺
There are some polyatomic (containing more than one atom) ions stated in the exam specification:
- Carbonate ions, CO₃^2–
- Sulfate ions, SO₄^2–
- Hydroxide ions, OH^–
- Ammonium ions, NH₄⁺

Exam Tip

A table of formulae for common ions, including compound ions, is included in your exam paper
You are still expected to be able to apply your knowledge to any given ion

Determining the formulae of ionic compounds

Ionic compounds typically have no overall charge
- This means that the size of any positively charged ion is cancelled by the size of any negatively charged ion
- Careful: This should not be confused with an atom having no overall charge

Direct comparison

The formula of an ionic compound can be determined by directly comparing the charges of the ions:
- For example, iron(II) sulfate
  - The iron(II) ion is Fe²⁺, which means that it has a 2+ or +2 charge
  - The sulfate ion is SO₄^2–, which means that it has a 2– or –2 charge
  - The charges cancel each other out
    - Mathematically, (+2) + (–2) = 0
  - This means that one SO₄^2– ion is needed to cancel the +2 charge on Fe²⁺
  - Therefore, the formula of iron(II) sulfate is FeSO₄

The swap-and-drop method

When the ions in the ionic compound have different charges, it can be easier to use the swap-and-drop method
- Careful: If you use this method with ions that have the same charge, then you must give the simplest whole number ratio to get the correct answer
For example, copper(II) chloride:
- The copper(II) ion is Cu²⁺, which means that it has a 2+ or +2 charge
- The chloride ion is Cl^–, which means that it has a 1– or –1 charge
- The size of the charge on the copper(II) ion indicates the number of chloride ions needed, and the size of the charge on the chloride ion indicates the number of copper(II) ions needed

Determining the formula of copper(II) chloride

~5RmSBVa_copperii-chloride-swap-and-drop

The charges swap from element to element and drop down. The positive and negative signs are removed and there is no need for the number 1.

- - This gives the overall formula of copper(II) chloride as CuCl₂

Worked example

The compound produced in the reaction between iron wool and chlorine contains the ions Fe³⁺ and Cl^–.

Give the formula of this compound.

State the name of this compound.

Answers:

Part a)

Direct comparison method:
- The iron ion is Fe³⁺, which means that it has a 3+ or +3 charge
- The chloride ion is Cl^–, which means that it has a 1– or –1 charge
- The charges do not cancel each other out
  - Mathematically, (+3) + (–1) ≠ 0
- Three Cl^– ions are needed to cancel the +3 charge on Fe³⁺
- Therefore, the formula is FeCl₃
Swap-and-drop method

The formula is FeCl₃

Part b)

The metal is iron and the chlorine will change to chloride
Therefore the name is iron chloride

Exam Tip

Take your time determining the chemical formula of ionic compounds with
- Different charges on the ions
- Polyatomic ions
For example, the fertiliser ammonium sulfate contains the ammonium ion, NH₄⁺, and the sulfate ion, SO₄^2–
- By direct comparison or using the swap-and-drop method, the formula of ammonium sulfate is (NH₄)₂SO₄
  - If more than one of any ion is needed then it should be inside brackets

Chemical Symbols & Formulae (WJEC GCSE Chemistry: Combined Science)

Revision Note