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S OLIDS 10.3 S OLIDS How do the particles in a solid behave? Shape and Volume Definite Definite Melting Point Melting – the physical change of a solid.

Published byRobert Owens Modified over 8 years ago

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Presentation on theme: "S OLIDS 10.3 S OLIDS How do the particles in a solid behave? Shape and Volume Definite Definite Melting Point Melting – the physical change of a solid."— Presentation transcript:

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2 S OLIDS 10.3

3 S OLIDS How do the particles in a solid behave? Shape and Volume Definite Definite Melting Point Melting – the physical change of a solid to a liquid by the addition of energy as heat Melting point – the temp where solid becomes a liquid

4 S OLIDS Crystals – particles are arranged in an orderly, geometric, repeating pattern Crystalline solids – consists of crystals – Most Common Amorphous solid – particles arranged randomly Glass and plastics

5 P ROPERTIES Amorphous substances have no definite melting pt Supercooled liquids – (aka amorphous substances) substances that retain certain liquid properties even at temps at which they appear to be solid

6 P ROPERTIES High Density Low Compressibility Some seem compressible (wood and cork) but are not due to air pockets in the solid Low rate of diffusion

7 C RYSTALLINE S OLIDS Crystal structure – the 3D arrangement of particles in a crystal Unit Cell – the smallest repeating pattern of a crystal lattice 7 different types of symmetry Pattern repeats in crystal

8 B INDING F ORCES IN C RYSTALS Classify crystals in 4 main types 1. Ionic Crystals = + and – ions in a regular pattern Very strong forces Hard, brittle, high m.p., good insulators – Ex: Salt

9 B INDING F ORCES IN C RYSTALS 2. Covalent Network Crystals = each atom is covalently bonded to all neighbors Hard, brittle, high m.p, and usually semiconductors or nonconductors Ex: diamonds

10 B INDING F ORCES IN C RYSTALS 3. Metallic Crystals = metal cations surrounded by valence e-’s Conductors of electricity Ex: Fe

11 B INDING F ORCES IN C RYSTALS 4.Covalent molecular crystals = nonpolar molecules held together by London dispersion forces Low m.p., easily vaporized, soft and good insulators – Ex:CO 2

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