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| Course Info Packet Big Chem Honors |
Course Info Packet Big Chem Regents |
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Regents Exam Review 200 things to know (html), (pdf) |
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Honors |
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Unit 01: Scientific Skills U01 Unit Packet, U01 Notes |
Unit 08: Gases U08 Problem Set, U08 Notes |
Unit 01: Scientific Skills U01 Unit Packet, U01 Notes |
Unit 08: Gases U08 Problem Set, U08 Notes |
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Unit 09: Kinetics and Equilibrium U09 Problem Set, U09 Notes |
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Unit 09: Kinetics and Equilibrium U09 Problem Set, U09 Notes |
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Unit 10: Solutions U10 Problem Set, U10 Notes |
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Unit 10: Solutions U10 Problem Set, U10 Notes |
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Unit 11:Acids and Bases U11 Problem Set, U11 Notes |
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Unit 11:Acids and Bases U11 Problem Set, U11 Notes |
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Unit 12: Oxidation and Reduction U12 Problem Set, U12 Notes |
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Unit 12: Oxidation and Reduction U12 Problem Set, U12 Notes |
Unit 06: Chemical Reactions U06 Problem Set, U06 Notes |
Unit 13: Organic Chemistry U13 Problem Set, U13 Notes |
Unit 06: Chemical Reactions U06 Problem Set, U06 Notes |
Unit 13: Organic Chemistry U13 Problem Set, U13 Notes |
Unit 07: Energy, Phases of Matter U07 Problem Set, U07 Notes |
Unit 14: Nuclear Chemistry U14 Problem Set, U14 Notes |
Unit 07: Energy, Phases of Matter U07 Problem Set, U07 Notes |
Unit 14: Nuclear Chemistry U14 Problem Set, U14 Notes |
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 U01:SciSkillsthales scientific method si units metric prefixes measurement estimating measurements scientific notation significant figures accuracy & precision percent error factor label graphing independent variable dependent variables best fit curve graphing in excel |
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U02: Matter chemistry is . . matter element compound mixture heterogeneous mixture homogeneous mixture classifying matter chart separation of mixtures filtration distillation chemical change physical change density |
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Unit 12: Oxidation
and Reduction finding oxidation numbers REDOX: oxidation and reduction oxidation and reduction introduced reduction and interpreting reactions agents and half reactions applying the reactivity series activity series in action electrochemical cells voltaic cells red cat, an ox electrolytic cells electrolysis at home car batteries voltaic cells electroplating |
| U03:
Atomic Structure atom atomic history john dalton law of multiple proportions law of definite proportions jj thompson plum pudding earnest rutherford gold foil experiment mostly empty space rutherford model neils bohr bohr model albert einstein schrödinger equation orbital model components of atoms amu electrons protons neutrons isotope notation isotopic symbols average atomic mass calculating atomic mass orbitals bohr notation lewis dot diagrams sublevel notation spectral analysis electromagnetic spectrum |
U08: Gases gases are . . . gases exert pressure the speed of air air pressure on earth our atmosphere how suction works drinking from a straw crushing atmosphere how do we measure pressure barometers ideal gas ideal gas assumptions STP boyle's law charles's law gay-lussac's law combined gas law avogadro's law ideal gas law aplying avogadro's law gas stoichiometry |
Unit 13: Organic
Chemistry organic compounds contain carbon homologous series of hydrocarbons organic prefixes to memorize alkanes alkenes alkyines naming organic compounds fullerine polymers plastics saturated vs unsaturated hydrocarbons steps for naming complex hydrocarbons substituted hydrocarbons naming substituted hydrocarbons isomers drawing isomers organic reactions combustion saponification fermentation esterification polymerization substitution and addition |
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Unit 04: Periodic Table the periodic table is . . . dmitri mendeleev metals metalloids nonmetals properties of metals properties of nonmetals properties of metalloids periods groups how orbitals are filled ocetet rule group 1: alkali metals group 2: alkali earth metals groups 3-12: transition metals group 11: coinage metals group 17: halogens group 18: noble gases lanthanide series actanide series periodicity atomic radius trends in atomic radius ions first ionization energy trends in first ionization energy electronegativity metallic properties trends in metallic properties |
U09: Kinetics and
Equilibrium kinetics is . . . collision theory reaction rates reaction mechanisms enthalpy: heat content calculating delta H potential energy diagrams entropy equilibrium solution equilibrium chemical equilibrium Le Chatlier's principle |
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Unit 05: Bonding a bond is . . . where does a bond happen? why do atoms bond? octet rule ionic bonding what atoms form ionic bonds? covalent bonds? polar covalent bonds nonpolar covalent bonds bond polarity polar covalent water nonpolar covalent methane determining bond polarity metallic bonds properties of metallic bonds interpreting chemical formulas lewis dot diagrams for compounds lewis dot diagrams for polyatomic ions examining oxidation states oxidation staes add to zero determining chemical formulae the crossover method naming chemical compounds naming ionic compounds the stock system naming binary covalent compounds intermolecular forces dipoles hydrogen bonds why ice floats properties of ionic solids properties of network solids properties of molecular solids properties of covalent liquids like dissolves like |
U10: Solutions a solution is . . . homogeneous mixtures solute + solvent = solution saturation supersaturation factors influencing solubility solubility curves Table G rate of solution dilute vs. concentrated concentration calculations percent mass percent volume parts per million (ppm) molarity colligative properties |
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