After completing this topic you should be able to : Describe the structure of a metal as a giant lattice of positively charged ions and delocalised outer.

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Presentation transcript:

After completing this topic you should be able to : Describe the structure of a metal as a giant lattice of positively charged ions and delocalised outer electrons. Describe metallic bonding as the electrostatic force of attraction between the positively charged nuclei and the outer delocalised electrons in metal atoms. Explain the properties of a metal (electrical conductivity, malleability and ductility) in terms of the metallic bonding.

The o oo outer electron(s) on a metal atom are said to “ ““ “DELOCALISED”, as they are not located on a specific atom. Metals have a high density indicating the metal atoms are closely packed together. The outer electron(s) on each atom are free to move between the atoms. This results in a regular arrangement (a L LL LATTICE) of P PP POSITIVE IONS with NEGATIVE ELECTRONS moving between the p pp positive ions. Free moving outer electrons. Lattice of positive ions. These free moving outer electrons are described as a “SEA OF ELECTRONS”.

The electrostatic attraction between the positive ions and the delocalised electrons acts in all 3-dimensions, strongly holding the lattice together. delocalised electron This electrostatic attraction is the METALLIC BONDING. Most metals have high melting and boiling points. In addition, there is usually a large difference between the melting and boiling point of a metal (its liquid range). This indicates m mm metallic bonding is very strong.

Metals are good conductors of heat and electricity. This is due to the presence of the delocalised electrons. The movement of the delocalised passes on the e ee energy during c cc conduction of heat. During conduction of an electric current, electrons pushed into the metal from NEGATIVE ELECTRODE of a battery or power supply make the delocalised electrons move towards the P PP POSITIVE ELECTRODE. - ve electrode + ve electrode The metal is not affected by the passage of an electric current, as the number of electrons always equals the number of protons in the lattice.

Metals can easily have their shape changed, yet they still retain their strength. Metals are MALLEABLE as they can be bent and hammered into different shapes. Metals are DUCTILE as they can be pulled and squeezed to produce wires. During reshaping the metal ions move position, as do the sea of electrons. The metallic bonding is not affected. RESHAPE