Edexcel IGCSE Chemistry Covalent Bonding

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Edexcel IGCSE Paper 1: Complete Revision Summary

Covalent Bonding

COVALENT BONDING

It is between two non metals
It involves the sharing of electrons between two non metals.
More than one electron pair can also be shared resulting in the formation of single double and triple bonds.

properties of Covalent Compounds

Simple Molecule

Eg – O₂, CH₄
They have weak intermolecular forces in them so have a lower melting and a boiling points
The intermolecular forces increases with increase in size as the surface area between the molecules increases.
Therefore, polymers which have covalent bonding between them have high melting and boiling point due to increase in chain length.

Giant Covalent

Diamond
Graphite
Silicon Dioxide

Ionic Bonding (1)

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GIANT COVALENT STRUCTURES

Substances which have huge network of atoms joined together by covalent bonds form giant covalent structures.

DIAMOND	GRAPHITE
It is hard.	It is soft and greasy.
It is an insulator	It is a conductor
It has a high density.	It has a lower density than diamond.
Each carbon atom is covalently bonded to four other carbon atoms giving it a strong rigid structure	Carbon atoms are bonded in the form of layer in the form of hexagons. No covalent bonding between the layers so they can slide past. Each carbon atom is bonded with three other carbon leaving the fourth electron has delocalized
No delocalised electrons present	It has delocalised electrons
Used in cutting or jewellery	It is used in pencil leads.

PROPERTIES OF GRAPHITE

Q1 Why graphite is soft and slippery?

In graphite, Carbon atoms are bonded in the form of layers in the form of hexagons. No covalent bonding between the layers so they can slide past each other. The layers have only weak intermolecular forces between them. By applying a little pressure then layers can easily slide past each other making Graphite soft and slippery.

Q2 Why graphite conduct electricity ?

In graphite, Carbon atoms are bonded in the form of layer in the form of hexagons. No covalent bonding between the layers so they can slide past. Each carbon atom is bonded with three other carbon leaving the fourth electron has delocalized. These delocalized electrons are mobiles electrons which can move and conduct electricity.

FULLERENE AND GRAPHENE

Fullerene: Hollow shaped molecule having hexagonal rings like a bucky ball.

Also known as bucky ball or buckminsterfullerene.
Carbon can be in the form of pentagon or hexagon rings
Used as catalyst, drug delivery and treating cancer.
Graphene: Layer of interlocking hexagonal rings like single sheet of graphite.

It is a better conductor than graphite, light and have low density.
Used in making computer chips and flexible electronic displays.

CARBON NANOTUBES

Cylinderical fullerene with the length greater than the diameter.
High tensile strength – Used in making reinforced composite materials
High electronic conductivity – used in electronic industry

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