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Diffstat (limited to 'notes/notes.out')
| -rw-r--r-- | notes/notes.out | 88 |
1 files changed, 69 insertions, 19 deletions
diff --git a/notes/notes.out b/notes/notes.out index 8a4dc21..b73625f 100644 --- a/notes/notes.out +++ b/notes/notes.out @@ -76,22 +76,72 @@ \BOOKMARK [3][-]{subsubsection.2.5.3}{Extensive and Intensive Physical Properties}{subsection.2.5}% 76 \BOOKMARK [3][-]{subsubsection.2.5.4}{Characteristic Properties}{subsection.2.5}% 77 \BOOKMARK [3][-]{subsubsection.2.5.5}{Chemical and Physical Changes}{subsection.2.5}% 78 -\BOOKMARK [2][-]{subsection.2.6}{Ionic Bonding}{section.2}% 79 -\BOOKMARK [3][-]{subsubsection.2.6.1}{Ionic Bonding}{subsection.2.6}% 80 -\BOOKMARK [3][-]{subsubsection.2.6.2}{Crystals}{subsection.2.6}% 81 -\BOOKMARK [3][-]{subsubsection.2.6.3}{Polyatomic Ions}{subsection.2.6}% 82 -\BOOKMARK [3][-]{subsubsection.2.6.4}{The Formation of Crystal Lattices}{subsection.2.6}% 83 -\BOOKMARK [3][-]{subsubsection.2.6.5}{Properties Resultant from Lattice Energy}{subsection.2.6}% 84 -\BOOKMARK [2][-]{subsection.2.7}{Covalent Bonding}{section.2}% 85 -\BOOKMARK [3][-]{subsubsection.2.7.1}{Orbital Overlap}{subsection.2.7}% 86 -\BOOKMARK [3][-]{subsubsection.2.7.2}{Equal and Unequal Sharing of Electrons}{subsection.2.7}% 87 -\BOOKMARK [3][-]{subsubsection.2.7.3}{Lewis Structures}{subsection.2.7}% 88 -\BOOKMARK [3][-]{subsubsection.2.7.4}{Exceptions to the Octet Rule}{subsection.2.7}% 89 -\BOOKMARK [3][-]{subsubsection.2.7.5}{Double and Triple Bonds}{subsection.2.7}% 90 -\BOOKMARK [3][-]{subsubsection.2.7.6}{Resonance Structures}{subsection.2.7}% 91 -\BOOKMARK [3][-]{subsubsection.2.7.7}{Properties of Covalent Compounds}{subsection.2.7}% 92 -\BOOKMARK [2][-]{subsection.2.8}{Metallic Bonding}{section.2}% 93 -\BOOKMARK [3][-]{subsubsection.2.8.1}{The Electron Sea}{subsection.2.8}% 94 -\BOOKMARK [3][-]{subsubsection.2.8.2}{Molecular Orbitals}{subsection.2.8}% 95 -\BOOKMARK [3][-]{subsubsection.2.8.3}{Resultant Properties}{subsection.2.8}% 96 -\BOOKMARK [3][-]{subsubsection.2.8.4}{Alloys}{subsection.2.8}% 97 +\BOOKMARK [1][-]{section.3}{Chemical Bonds and Compounds}{}% 79 +\BOOKMARK [2][-]{subsection.3.1}{Ionic Bonding}{section.3}% 80 +\BOOKMARK [3][-]{subsubsection.3.1.1}{Ionic Bonding}{subsection.3.1}% 81 +\BOOKMARK [3][-]{subsubsection.3.1.2}{Crystals}{subsection.3.1}% 82 +\BOOKMARK [3][-]{subsubsection.3.1.3}{Polyatomic Ions}{subsection.3.1}% 83 +\BOOKMARK [3][-]{subsubsection.3.1.4}{The Formation of Crystal Lattices}{subsection.3.1}% 84 +\BOOKMARK [3][-]{subsubsection.3.1.5}{Properties Resultant from Lattice Energy}{subsection.3.1}% 85 +\BOOKMARK [2][-]{subsection.3.2}{Covalent Bonding}{section.3}% 86 +\BOOKMARK [3][-]{subsubsection.3.2.1}{Orbital Overlap}{subsection.3.2}% 87 +\BOOKMARK [3][-]{subsubsection.3.2.2}{Equal and Unequal Sharing of Electrons}{subsection.3.2}% 88 +\BOOKMARK [3][-]{subsubsection.3.2.3}{Lewis Structures}{subsection.3.2}% 89 +\BOOKMARK [3][-]{subsubsection.3.2.4}{Exceptions to the Octet Rule}{subsection.3.2}% 90 +\BOOKMARK [3][-]{subsubsection.3.2.5}{Double and Triple Bonds}{subsection.3.2}% 91 +\BOOKMARK [3][-]{subsubsection.3.2.6}{Resonance Structures}{subsection.3.2}% 92 +\BOOKMARK [3][-]{subsubsection.3.2.7}{Properties of Covalent Compounds}{subsection.3.2}% 93 +\BOOKMARK [2][-]{subsection.3.3}{Metallic Bonding}{section.3}% 94 +\BOOKMARK [3][-]{subsubsection.3.3.1}{The Electron Sea}{subsection.3.3}% 95 +\BOOKMARK [3][-]{subsubsection.3.3.2}{Molecular Orbitals}{subsection.3.3}% 96 +\BOOKMARK [3][-]{subsubsection.3.3.3}{Resultant Properties}{subsection.3.3}% 97 +\BOOKMARK [3][-]{subsubsection.3.3.4}{Alloys}{subsection.3.3}% 98 +\BOOKMARK [2][-]{subsection.3.4}{Intermolecular Forces}{section.3}% 99 +\BOOKMARK [3][-]{subsubsection.3.4.1}{Intramolecular vs Intermolecular Forces}{subsection.3.4}% 100 +\BOOKMARK [3][-]{subsubsection.3.4.2}{Hydrogen Bonds}{subsection.3.4}% 101 +\BOOKMARK [3][-]{subsubsection.3.4.3}{Van der Waals Forces}{subsection.3.4}% 102 +\BOOKMARK [3][-]{subsubsection.3.4.4}{Applications of Intermolecular Forces}{subsection.3.4}% 103 +\BOOKMARK [2][-]{subsection.3.5}{Nomenclature of Ionic Compounds}{section.3}% 104 +\BOOKMARK [3][-]{subsubsection.3.5.1}{Charge of Ions}{subsection.3.5}% 105 +\BOOKMARK [3][-]{subsubsection.3.5.2}{Nomenclature of Ionic Compounds}{subsection.3.5}% 106 +\BOOKMARK [3][-]{subsubsection.3.5.3}{Polyatomic Ions}{subsection.3.5}% 107 +\BOOKMARK [3][-]{subsubsection.3.5.4}{Transition Metals}{subsection.3.5}% 108 +\BOOKMARK [2][-]{subsection.3.6}{Nomenclature of Covalent Compounds}{section.3}% 109 +\BOOKMARK [3][-]{subsubsection.3.6.1}{Nomenclature for Covalent Compounds}{subsection.3.6}% 110 +\BOOKMARK [3][-]{subsubsection.3.6.2}{Exceptions}{subsection.3.6}% 111 +\BOOKMARK [3][-]{subsubsection.3.6.3}{Acids and Bases}{subsection.3.6}% 112 +\BOOKMARK [2][-]{subsection.3.7}{Polymers}{section.3}% 113 +\BOOKMARK [3][-]{subsubsection.3.7.1}{Formation of Polymers}{subsection.3.7}% 114 +\BOOKMARK [3][-]{subsubsection.3.7.2}{Polymer Classification}{subsection.3.7}% 115 +\BOOKMARK [2][-]{subsection.3.8}{Properties and Uses of Saturated Hydrocarbons}{section.3}% 116 +\BOOKMARK [3][-]{subsubsection.3.8.1}{Isomers and Hydrocarbons}{subsection.3.8}% 117 +\BOOKMARK [3][-]{subsubsection.3.8.2}{Hydrocarbon Notation}{subsection.3.8}% 118 +\BOOKMARK [3][-]{subsubsection.3.8.3}{Straight Chains, Branched Chains, and Cycloalkanes}{subsection.3.8}% 119 +\BOOKMARK [3][-]{subsubsection.3.8.4}{Properties}{subsection.3.8}% 120 +\BOOKMARK [3][-]{subsubsection.3.8.5}{Alkane Uses}{subsection.3.8}% 121 +\BOOKMARK [3][-]{subsubsection.3.8.6}{Nomenclature}{subsection.3.8}% 122 +\BOOKMARK [2][-]{subsection.3.9}{Properties and Uses of Unsaturated Hydrocarbons}{section.3}% 123 +\BOOKMARK [3][-]{subsubsection.3.9.1}{Alkenes, Alkynes}{subsection.3.9}% 124 +\BOOKMARK [3][-]{subsubsection.3.9.2}{Cis Isomers and Trans Isomers}{subsection.3.9}% 125 +\BOOKMARK [3][-]{subsubsection.3.9.3}{Aromatic Hydrocarbons}{subsection.3.9}% 126 +\BOOKMARK [3][-]{subsubsection.3.9.4}{Boiling Points and Vapor Pressure}{subsection.3.9}% 127 +\BOOKMARK [3][-]{subsubsection.3.9.5}{Properties of Unsaturated Hydrocarbons}{subsection.3.9}% 128 +\BOOKMARK [3][-]{subsubsection.3.9.6}{Applications of Unsaturated Hydrocarbons}{subsection.3.9}% 129 +\BOOKMARK [1][-]{section.4}{Chemical Reactions and Limiting Reactants}{}% 130 +\BOOKMARK [2][-]{subsection.4.1}{Evidence of Chemical Reactions}{section.4}% 131 +\BOOKMARK [3][-]{subsubsection.4.1.1}{Chemical Changes and Chemical Reactions}{subsection.4.1}% 132 +\BOOKMARK [3][-]{subsubsection.4.1.2}{Rate of a Chemical Reaction}{subsection.4.1}% 133 +\BOOKMARK [3][-]{subsubsection.4.1.3}{Indicators/Evidence of a Chemical Reaction}{subsection.4.1}% 134 +\BOOKMARK [2][-]{subsection.4.2}{Writing and Balancing Chemical Equations}{section.4}% 135 +\BOOKMARK [3][-]{subsubsection.4.2.1}{Equations}{subsection.4.2}% 136 +\BOOKMARK [2][-]{subsection.4.3}{Percent Composition and Molecular Formula}{section.4}% 137 +\BOOKMARK [3][-]{subsubsection.4.3.1}{Mole Ratios}{subsection.4.3}% 138 +\BOOKMARK [3][-]{subsubsection.4.3.2}{Empirical and Molecular Formulae}{subsection.4.3}% 139 +\BOOKMARK [3][-]{subsubsection.4.3.3}{Percent Composition}{subsection.4.3}% 140 +\BOOKMARK [2][-]{subsection.4.4}{Types of Reactions}{section.4}% 141 +\BOOKMARK [3][-]{subsubsection.4.4.1}{Types of Chemical Reactions}{subsection.4.4}% 142 +\BOOKMARK [3][-]{subsubsection.4.4.2}{Differentiating Single and Double Replacement Reactions}{subsection.4.4}% 143 +\BOOKMARK [3][-]{subsubsection.4.4.3}{Activity Series}{subsection.4.4}% 144 +\BOOKMARK [2][-]{subsection.4.5}{Limiting Reactant and Percent Yield}{section.4}% 145 +\BOOKMARK [3][-]{subsubsection.4.5.1}{Limiting Reactants and Stoichiometry}{subsection.4.5}% 146 +\BOOKMARK [3][-]{subsubsection.4.5.2}{Theoretical Yield and Percent Yield}{subsection.4.5}% 147 |