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General Chemistry
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Chapter 1 Matter and Measurement
1.1 Matter (26:39)
1.2 Scientific Notation & Significant Figures (22:43)
1.3 Units and Conversions (31:27)
Chapter 2 Atoms, Molecules, and Ions
2.1 Atomic Structure and Introduction to the Periodic Table (29:20)
2.2 Naming Ionic Compounds Compounds (18:49)
2.3 Naming Molecular Compounds (8:00)
2.4 Naming Acids (12:31)
Chapter 3 Stoichiometry
3.1 Chemical Reactions & Chemical Equations (18:01)
3.2 Calculations with Moles (30:19)
3.3 Mass Percent and Empirical and Molecular Formulas (13:43)
3.4 Limiting Reactant Calculations (24:22)
Chapter 4 Aqueous Reactions and Solution Stoichiometry
4.1 Solutions and Electrolytes (20:50)
4.2 Double Displacement Reactions (22:49)
4.3 Oxidation Reduction Reactions (26:23)
4.4 Molarity and Dilutions (16:12)
4.5 Solution Stoichiometry (10:35)
Chapter 5 Thermochemistry
5.1 First Law of Thermodynamics and Enthalpy (29:59)
5.1b PV Work (13:54)
5.2 Calorimetry (29:11)
5.3 Hess's Law and Enthalpy of Formation (38:36)
Chapter 6 Electronic Structure
6.1 Nature of Light and the Photoelectric Effect (27:01)
6.2 Electronic Transitions (Absorption and Emission) (22:59)
6.3 The de Broglie Relation and the Heisenberg Uncertainty Principle (10:09)
6.4 Quantum Numbers and Atomic Orbitals (29:10)
6.5 Electronic Configuration (44:18)
Chapter 7 Periodic Properties of the Elements
7.1 Atomic Radius (25:57)
7.1b Slater's Rules (15:17)
7.2 Ionization Energy (15:02)
7.3 Electron Affinity & Electronegativity (14:31)
7.4 Properties of Elements and Compounds (23:28)
Chapter 8 Bonding and Lewis Structures
8.1 Ionic Bonding (15:52)
8.1b Born Haber Cycle (7:39)
8.2 Lewis Dot Structures (1:07:05)
8.3 Bond Enthalpy (17:43)
Chapter 9 Molecular Geometry and Bonding
9.1 VSEPR Theory and Molecular Geometry (33:39)
9.2 Polarity (21:45)
9.3 Hybridization (16:52)
9.4 Sigma and Pi Bonds (11:18)
9.5 Molecular Orbital Theory (45:53)
Chapter 10 Gases
NEW VIDEO GASES (1:05:54)
10.1 Properties of Gases (12:25)
10.2 Gas Laws Including the Ideal Gas Law (41:43)
10.3 Additional Gas Laws (21:33)
10.4 Real Gases & the Van der Waals Equation (12:19)
Chapter 11 Intermolecular Forces, Liquids, and Solids
11.1 Intermolecular Forces (35:58)
11.2 Phase Diagrams (14:45)
11.3 Structures of Solids (30:27)
Chapter 13 Solutions and Colligative Properties
13.1 Solution Formation and Solubility (16:17)
13.2 Units of Concentration (13:46)
13.3 Colligative Properties (34:57)
CHM 113 Final Exam Review
CHM 113 Final Exam Review Study Guide
Nomenclature and Conversions (23:23)
Stoichiometry (29:53)
Thermochemistry (45:22)
Atomic and Electronic Structure (59:38)
Periodic Properties of the Elements (25:29)
Bonding and Molecular Structure (49:45)
Gases (45:09)
Liquids and Solids (34:06)
Chapter 14 Chemical Kinetics
14.1 Rate Expressions and the Rate of Reaction (10:39)
14.2 Rate Laws (25:16)
14.3 Reaction Mechanisms, Catalysts, and Reaction Coordinate Diagrams (36:56)
14.4 Collision Theory and the Arrhenius Equation (23:20)
14.5 Integrated Rate Laws (25:10)
14.5b Derivation of the Integrated Rate Laws (7:34)
Chapter 15 Chemical Equilibrium
15.1 Equilibrium and Equilibrium Constants (28:41)
15.2 Le Chatelier's Principle (25:12)
15.3 Equilibrium Calculations (ICE Tables) (23:29)
Chapter 16 Acid-Base Equilibria
16.1 Introduction to Acids and Bases (32:34)
16.2 Binary Acids, Oxoacids, and Polyprotic Acids (20:01)
16.3 The pH Scale and pH Calculations (27:02)
16.4 pH Calculations for Strong Acids and Bases (12:37)
16.5 pH Calculations for Weak Acids and Bases (37:34)
16.6 Acidity and Basicity of Salts (24:31)
Chapter 17 - Buffers, Titrations, and Solubility Equilibria
17.1 Buffers (44:37)
17.2 Titrations and Titration Curves (28:50)
17.3a pH Calculations for Strong Acid Strong Base Titrations (16:23)
17.3b pH Calculations for Weak Acid Strong Base Titrations (28:58)
17.4 Solubility and Ksp (22:41)
17.5 Common Ion Effect and Precipitation (28:10)
17.6 pH Effects on Solubility (8:46)
Chapter 18 Thermodynamics
NEW VIDEO THERMODYNAMICS (1:07:00)
18.1 The Laws of Thermodynamics (10:06)
18.2 Entropy (25:24)
18.3 Gibbs Free Energy and the Relationship between Delta G, Delta H, & Delta S (32:10)
18.4 Delta G, Delta H, Delta S and Formation Reactions (18:12)
18.5 Gibbs Free Energy and the Equilibrium Constant (24:43)
Chapter 19 Electrochemistry
19.1 How to Assign Oxidation Numbers (21:13)
19.2 How to Balance Oxidation Reduction Reactions (32:49)
19.3 Galvanic Cells (20:34)
19.3b Cell Notation & Cathodic Protection (9:30)
19.4 How to Calculate Standard Cell Potential (27:14)
19.5 How to Calculate Nonstandard Cell Potential [Nernst Equation] (13:27)
19.5b Concentration Cells (8:44)
19.6 Cell Potential, Delta G, and the Equilibrium Constant (9:38)
19.7 Electrolytic Cells (11:07)
19.8 Electrolysis Calculations (13:16)
Chapter 20 Nuclear Chemistry
20.1 Introduction to Nuclear Chemistry (19:20)
20.2 Balancing Nuclear Reactions (7:18)
20.3 Spontaneous Routes of Nuclear Decay, Fission, & Fusion (22:32)
20.4 Kinetics of Nuclear Decay (19:50)
20.5 Energy of Nuclear Reactions & Nuclear Binding Energy (22:49)
Chapter 21 Coordination Chemistry
21.1 Introduction to Coordination Chemistry (13:12)
21.2 Naming Complex Ions and Coordination Compounds (13:51)
21.3 Isomers in Coordination Chemistry (24:17)
21.4 Crystal Field Theory (23:25)
21.5 Color and Paramagnetism of Complex Ions and Coordination Compounds (23:50)
CHM 116 Final Exam Review
Chemical Kinetics (38:25)
Chemical Equilibrium (42:06)
Acids and Bases (1:06:39)
Nuclear Chemistry (35:36)
Chad's Zoom Discussion Sessions
Chapter 7 Session (62:11)
Chapter 8 Session (56:30)
Chapter 9 Session (62:14)
113 Exam 3 Review (61:59)
Chapter 10 Session (56:51)
Chapter 11 Session (61:26)
Chapter 13 Session (48:55)
113 Exam 4 Review (185:48)
CHM 116 Exam 3 Review (Thermodynamics and Electrochemistry) (217:37)
Teach online with
21.1 Introduction to Coordination Chemistry (13:12)
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