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Aim: I.O.SWBAT : 1)Distinguish between crystalline and amorphous solids. 2) Predict the type of solid. 3) Predict different solids general property. Motivation :. Do-Now : Complete the hand-out.
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Aim: I.O.SWBAT: 1)Distinguish between crystalline and amorphous solids. 2) Predict the type of solid. 3) Predict different solids general property. Motivation:
Do-Now: Give the phase of each of the following substances at room temperature. a) Aluminum b) Plastic
Solids • Have both definite structures and definite volume. • There are two general groups of solids: • Crystalline solids: Particles are in highly ordered arrangement.
Crystal structures are determined experimentally by X-Ray Diffraction.
Crystalline Lattice Repeating pattern of particles Lattice point
Unit cell: the smallest repeating unit in the pattern in 3-D.
Primitive unit cell Primitive unit cell 1/8 of 8 atoms (ions) = 1 atom per cell In the primitive unit cell, the atoms at the corners are cut because only 1/8 belongs to that cell. The rest of the atom belongs to neighboring cells.
Body-centered cubic cell (bcc) 1/8 of 8 atoms + 1 in the center 2 atoms per cell
Face-centered cube (fcc) Each atom at the center of each face is shared with another cell. 1/8 of 8 atoms +1/2 of 6 atoms 4 atoms per cell
SUMMARY Atoms at the corners = 1/8 Atoms at an edge = 1/4 Atoms at a faces = 1/2 Atoms at the center = 1
Amorphous solids: No particular order in the arrangement of particles. (no crystal lattice) • Have NO definite melting pts.
TYPE OF SOLIDS 1. Molecular solids: Molecules are held together by weak intermolecular forces. (dipole-dipole, london dispersion, H-bond) PROPERTIES: Soft, low m.p.(usually below 200oC) Ex. Sugar, graphite
2. Covalent network solids: • Contain no discrete molecular units. • The atoms in the network solid are held together • by covalent bonds with neighboring atoms. • The result is a single extended network. • PROPERTIES: • Hard, high m.p. • Ex. Diamond,SiO2(sand, quartz), SiC, BN
Diamond: • Bond angle = 109o • Tetrahedral shape • sp3 Hybridization • Non-conductor of electricity • 3 dimensional
Graphite: • Bond angle = 120o • Trigonal planar shape • Sp2 hybridization • Conductor of electricity • 2 dimensional *Graphite can conduct electricity because of delocalized electrons (P-bonds) in the benzene ring.
Allotropes: Different forms of the same element that differ in bonding. Ex. C: graphite, diamond O: O2, O3 (ozone)
3. Metallic solids: • Covalent bonds between positive ions immersed in • a “sea” of delocalized valence electrons. • Hardness and m.p. depend on the number of • valence electrons. • (Wide range of hardness and m.p.)
4.Ionic solids: • Ions held together by strong electrostatic attraction. • Melting pts. depend mostly on the charge of the ions. + + HW# 40
Do-Now: In terms of kinetic energy, explain why super critical fluids cannot be liquefied by increasing pressure.