Why do atoms bond? They want to have a full outer electron shell. This is why oxygen that we breathe in is O 2, chlorine gas is Cl 2 etc… METALNON-METAL.

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Presentation transcript:

Why do atoms bond? They want to have a full outer electron shell. This is why oxygen that we breathe in is O 2, chlorine gas is Cl 2 etc… METALNON-METAL METAL metallicionic NON-METAL ioniccovalent What type of bond?

What are the properties of the different types of chemical bond? IONICMETALLICCOVALENT Type of structure Are ions present? Are delocalised electrons present? How strong is the chemical bond? High/Low melting point? Conductor of electricity?

What are the properties of the different types of chemical bond? IONICMETALLICCOVALENT Type of structure giant Giant Simple molecules Are ions present? yes no Are delocalised electrons present? noyes no (except in graphite) no How strong is the chemical bond? strong very strong High/Low melting point? high lowvery high Conductor of electricity? when molten/ in solution yes no (except graphite) no

What is an ionic bond? Li What’s missing?

Giant Ionic Structures Oppositely charged ions are attracted to each other. This attraction forms a strong ionic bond. The charge on a ion acts in all directions. The ions arrange themselves into a lattice structure, involving huge numbers of ions, which is why they are named giant structures.

Because of this, an electric current can be passed through the solution. The same is true when ionic substances are molten. When an ionic substance dissolves, the ions break out of their lattice structure and are free to move about and carry a charge.

When atoms share electrons, they are held together very tightly. This is a covalent bond. Example – Hydrogen: H H x H H x Hydrogen atoms Hydrogen molecule H 2

C H H H H

You are very likely to get a question about why giant covalent substances (like diamond or silicon dioxide – sand) have very high melting points. Lots (thousands, millions!) of atoms joined together by covalent bonds very strong bonds lots of bonds to be broken need a huge amount of energy/heat to break the bonds therefore a very high melting point

Simple covalent substances (molecules) Molecules: a small number of atoms covalently bonded. They have very different properties to giant covalent substances.

Simple molecules all have low melting and boiling points. Why? H H x The covalent bonds are very strong, so the atoms are held together tightly. But, the individual molecules are separate from each other. There is a force of attraction between individual molecules (called the intermolecular force). This is weak, and only a small amount of energy is needed to overcome it. HH H H H H H H H H H H H H H H H H H H

Cl STRONG covalent bond WEAK intermolecular force When a molecular substance melts/boils, it is the intermolecular forces that are overcome. The covalent bonds are not broken.

Finally, metallic bonds outer shell electrons delocalise (come away from the atom) and are free to move forming a ‘sea of electrons’ and leaving positive metal ions the attraction between negative electrons and the positive ions holds the metal together – the electrons act like glue the metal ions are held tightly in neat rows that can slide over each other