This is second semester stuff from the year 2003, but you are welcome to check out a course if you are interested.

	Physical Science Chapter 15(p377): simple machines, input, output and friction work, ideal and actual mechanical advantage, percent efficiency, lever law Chapter 19(p481): origin of electricity, electric fields, static, conduction, voltage, current, resistance, Ohm's law, series circuits, parallel circuits, power Chapter 20(p576): magnets compared to electricity. Poles, fields, domain theory, compass degrees, geographic vs magnetic pole, magnetosphere, auroras and charged particles in magnetic fields Chapter 21: Oersted effect, right hand rules, electric motors, the Faraday/Henry effect, generators, transformers Chapter 17: kinetic molecular theory, states of matter, length/volume changes, methods of heat transfer, heating curves, heats of fusion and vaporization, specific heat capacity. p120-125 atomic structure p141-146 periodic table of elements Compounds and formulas Formula mass p174-193:Ionic and covalent bonds p204-214:Chemical reactions
	Chemistry: Chapter 5: limiting reactants stoichiometry and percentage yield problems Chapter 8: Dalton, JJ Thomson, Millikan, radioactive decay, Rutherford gold foil, atomic mass, atomic number, isotopes, weighted average, isotope stability Chapter 9: nuclear reactions, mass loss, nuclear decay equations and sequences, half life Chapter 10: Bohr atoms, spectrums, wave models, Planck's hypothesis, DeBroglie's hypothesis, wave equation, Heisenberg's uncertainty principle, the four quantum numbers, diagonal Aufbau filling, Hund's rule, sublevels, shapes, orbitals, valence electrons Chapter 11: periodic properties, atomic radii, first ionization energy, stability, Coulomb's law, ionic size changes, exceptions to Aufbau. Chapter 13: ionic and covalent bonding. Electronegativity effects. Polar molecules. Lewis dot diagrams. Shared/unshared charge cloud effects. VSEPR shapes of molecules. Hybridization and single, double, triple bonds. p420-421: Intermolecular forces: VanderWaal's and London's dispersion forces p473: H bonds Acids/bases: the Bronsted-Lowry proton donor/acceptor pH, pOH and weak solutions
	APS Newton's third law Momentum and impulse Conservation of kinetic and potential energy States of matter Kinetic theory of matter, thermal expansion, heat transfer, heating curves, heats of fusion and vaporization, specific heat. Chapter 8: pressure, Boyle's and Charle's laws, ideal gas behavior, p246: substances-elements, compounds and mixtures physical properties, chemical properties, chemical changes. Conservation of mass atomic structure: protons, neutrons, electrons. Atomic number and mass number. The Bohr model: quantum numbers, orbitals, shapes, orientations-s,p,d,f Periodic table and trends Lewis dot diagrams, BrHONClIF, compounds from ionic and covalent bonding. Naming compounds, writing formulas Balancing chemical reactions

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