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Announcements To join clicker to class today: ● – Turn on the Clicker (the red LED comes on). – Push “Join” button followed by “20” followed by the “Send” button (switches to flashing green LED if successful). ● ● ● Exam Friday. Review Materials Posted. Graded quizzes available outside Dr. Gutow's office. If you instructor has not previously arranged to return your lab notebooks they are outside Dr. Gutow's office. Review • Molecular solids=Isolated molecules held together by intermolecular forces. • Network solids – diamond = continuous network of covalent bonds. – Silicates = networks of SiO4 tetrahedra held together by ionic interactions (ex. minerals and clays). • band structure of solids – Conductors, semiconductors and non-conductors. – Shift in band gap caused by small amounts of impurities (ex. yellow diamond). • Intro to crystal field splitting in discussion. Some Silicate Gemstones courtesy of Dr. Wacholtz Tourmalines (Na,Ca)(Mg, Fe, Al, Mn, Li)3Al6(BO3)3(Si6O18)(OH,F)4 Beryls Be3Al2-x(Cr, Fe)xSi6O18 Absorbance of Emeralds (fig 10.25) Zn2+ tetrahedral complexes Courtesy of Dr. Wacholtz Wavelength Transmitted/ reflected Wavelength Absorbed (d-d) transition ~565 nm ~580 nm ~605 nm ~600 ~610 ~640 (note the ligands absorb in the UV to blue range 350-400 nm Review-Chapter 9 • attractive interactions among molecules: – ion-ion (lattice energy: U=k(Q1Q2/d), calculation of U from a cycle of reactions) – ion-dipole – dipole-dipole – dipole - induced dipole – Dispersion • H-bonding Review-Chapter 9 – Generally weaker than ion-ion interactions – Stronger than other intermolecular interactions. – Only seen for hydrogens bonded to N, O or F. – Bond to lone pair on another molecule (usually on N, O or F). – Explain very high boiling points for H2O, NH3 and HF • Solubility – “like dissolves like” (polar in polar, nonpolar in nonpolar) – Only soluble if dissolved particles lower energy than undissolved solid. Review-Chapter 9 • Raoult’s law: Pvap = XsolvP˚solv • Note: Xsolv=nsolv/(nsolv + insolute) • Reading phase diagrams • Water’s unusual properties explained primarily by strong directional hydrogen bonding. – expansion on freezing – surface tension – formation of a meniscus – capillary action Review-Chapter 10 • Crystalline solids – cubic, bcc and fcc lattices ● – Volumes of different lattices in terms of radius of atoms: Vcubic = 8r3, – In ionic lattices smaller ion usually fits into octahedral or tetrahedral holes • small (+) ion < 44% radius of big ion into tetrahedral holes • if (+) ion about same size as (-) ion get simple cubic, like CsCl. Review – Chapter 10 • Molecular solids=Isolated molecules held together by intermolecular forces. • Network solids – diamond = continuous network of covalent bonds. – Silicates = networks of SiO4 tetrahedra held together by ionic interactions (ex. minerals and clays). • band structure of solids – Conductors, semiconductors and non-conductors. – Shift in band gap caused by small amounts of impurities (ex. yellow diamond). Review – Chapter 10 • Crystal field theory – Ligands around a transition metal ion cause the d-orbitals to lose their degeneracy. – You are responsible for two ligand arrangements, octahedral tetrahedral – High spin versus low spin states.
