1. Quantum Theory and Atomic Structure

4hr

1.1.1. The Atom and its Subatomic Particles4 min

1.1.2. Example4 min

1.1.3. Practice2 min

1.2.1. Review of Previous Atomic Models 12 min

1.3.1. Electromagnetic Spectrum2 min

1.3.2. Photon Equations5 min

1.3.3. Photon Equations (Cntd.)9 min

1.4.1. Blackbody Radiation3 min

1.5.1. The Photoelectric Effect8 min

1.5.2. The Photoelectric Effect Equation11 min

1.5.3. Example5 min

1.5.4. Practice3 min

1.5.5. Practice5 min

1.6.1. The Basics of Absorption and Emission Spectra3 min

1.6.2. Bohr's Atomic Model 12 min

1.6.3. Absorption vs Emission of a Photon3 min

1.6.4. Example4 min

1.6.5. Example3 min

1.7.1. Bohr Model Equations8 min

1.7.2. Example4 min

1.7.3. Example8 min

1.7.4. Practice 6 min

1.8.1. The Bohr Model and Atomic Line Spectra7 min

1.8.2. Relating Electronic Transitions to Emission Spectra8 min

1.8.3. Example4 min

1.8.4. Practice

1.8.5. Practice1 min

1.9.1. Wave-Particle Duality 8 min

1.9.2. Example1 min

1.9.3. Practice

1.9.4. Practice3 min

1.10.1. The Bohr Model Vs The Quantum Model6 min

1.11.1. The Heisenberg Uncertainty Principle5 min

1.11.2. Example3 min

1.11.3. Practice4 min

1.12.1. Quantum Numbers11 min

1.12.2. Quantum Numbers Cheatsheet

1.12.3. Example3 min

1.12.4. Example5 min

1.12.5. Example1 min

1.12.6. Practice1 min

1.13.1. Shapes (aka Boundary Diagrams) of Atomic Orbitals7 min

1.13.2. Drawing Atomic Orbitals7 min

1.13.3. Example3 min

1.13.4. Practice

1.14.1. Angular and Radial Nodes10 min

1.14.2. Wave Properties of Electrons4 min

1.14.3. Plotting Radial Electron Probability8 min

1.14.4. Example3 min

1.14.5. Example3 min

1.14.6. Example2 min

1.14.7. Practice4 min

2. Electron Configuration and Chemical Periodicity

4hr

2.1.1. Relative Energies of Atomic Orbitals11 min

2.1.2. Rules for Orbital Filling10 min

2.2.1. Electronic Configurations of Atoms11 min

2.2.2. Electron Configurastions Cheatsheet

2.2.3. Electron Configuration Exceptions5 min

2.3.1. Electron Configurations of Ions of Main Group Elements9 min

2.3.2. Electron Configuration of Ions of Transition Elements2 min

2.3.3. Example5 min

2.3.4. Example5 min

2.3.5. Practice3 min

2.4.1. Diamagnetic Vs Paramagnetic 7 min

2.4.2. Example8 min

2.4.3. Practice

2.5.1. Effective Nuclear Charge 9 min

2.5.2. Example1 min

2.5.3. Practice2 min

2.6.1. Atomic Radius7 min

2.6.2. Atomic Radius Theory7 min

2.6.3. Example2 min

2.6.4. Example3 min

2.6.5. Practice1 min

2.7.1. Ionization Energy 5 min

2.7.2. Comparing 1st, 2nd, and 3rd Ionization Energies9 min

2.7.3. Practice2 min

2.7.4. Practice2 min

2.7.5. Practice5 min

2.8.1. Electron Affinity 10 min

2.8.2. Example2 min

2.8.3. Practice2 min

2.8.4. Practice4 min

2.9.1. Electronegativity 4 min

2.9.2. Example47 sec

2.9.3. Practice3 min

2.10.1. Periodic Trends Theory2 min

2.10.2. Example5 min

2.10.3. Practice4 min

2.10.4. Practice7 min

2.10.5. Practice2 min

2.11.1. Exceptions to Periodic Trends Introduction3 min

2.11.2. Exceptions to Periodic Trends Examples10 min

2.11.3. Exceptions to Periodic Trends Summary2 min

2.11.4. Example3 min

2.11.5. Practice4 min

2.12.1. The Periodic Table of Elements9 min

2.12.2. Practice2 min

3. Models of Chemical Bonding

2.3hr

3.1.1. Introduction to Intramolecular Bonds4 min

3.1.2. Types of Intramolecular Bonds14 min

3.2.1. Lattice Energy (Property of Ionic Bonds)6 min

3.3.1. Properties of Covalent Bonds11 min

3.3.2. Example

3.3.3. Practice4 min

3.4.1. Bond Energies4 min

3.4.2. Practice

3.5.1. Drawing Lewis Structures 17 min

3.6.1. Resonance Structures Theory7 min

3.6.2. Equivalent Vs Non-Equivalent Resonance Structures5 min

4. The Shapes of Molecules

1.1hr

4.1.1. VSEPR Theory20 min

4.1.6. VSEPR and Molecular Shapes Cheatsheet

4.2.1. VSEPR Theory for Organic Compounds4 min

4.2.2. VSEPR Shapes for Organic Compounds - Example Problem2 min

4.2.3. Practice Question: VSEPR Theory for Organic Compounds2 min

4.2.4. Practice Question 2: VSEPR Theory for Organic Compounds3 min

4.3.1. Review of Polar Covalent Bonds

4.3.2. Molecular Polarity 8 min

4.3.3. Example8 min

4.3.4. Practice

4.3.5. Practice3 min

5. Theories of Covalent Bonding

54min

5.1.1. Introduction to Valence Bond Theory Theory6 min

5.1.2. Example: Valence Bond Theory4 min

5.1.3. Hybridization Theory9 min

5.1.4. Example: Valence Bond Description (Acetone)6 min

5.1.5. Practice: Hybridization Changes59 sec

5.1.6. Practice: Identifying Hybridization in Organic Molecules2 min

5.2.1. Molecular Orbital Theory Introduction3 min

5.2.2. How to Draw MO Diagrams for Homonuclear Diatomics8 min

5.2.3. Example: Molecular Orbitals of Li

_2

2 min

5.2.4. Example: Molecular Orbitals of HeH

^+

3 min

5.2.5. Practice: Diamagnetic Diatomics2 min

5.2.6. Practice: MO Orbitals2 min

5.2.7. Practice: Molecular Orbital (Challenging Problem)

5.3.1. Band Theory3 min

5.3.2. Metals, Semi-conductors and Insulators2 min

5.3.3. Doping Semiconductors4 min

5.3.4. Band Theory Quiz4 Qns

6. Intermolecular Forces

1.9hr

7. Organic Compounds

1.1hr

7.1.1. Functional Groups3 min

7.1.2. Identifying Functional Groups Problem 1

7.1.3. Functional Groups of Vitamin C

7.1.4. Practice: Identifying Functional Groups

7.1.5. Practice Question

7.1.6. Functional Groups

7.2.1. Line Bond Drawing6 min

7.2.2. Concept Clarifier

7.2.3. Hydrocarbons2 min

7.2.4. Constitutional Isomers

7.2.5. Example: Identiying Isomers4 min

7.2.6. Practice: Number of Constitutional Isomers

7.2.7. Practice: Identifying Constitutional Isomers

7.2.8. Practice: Hydrocarbon Isomers

7.3.1. Naming Simple Hydrocarbons4 min

7.3.2. Hydrocarbon Example2 min

7.3.3. Practice: Hydrocarbon Naming

7.3.4. Practice: Hydrocarbon Naming 2

7.3.5. Steps to Naming Complex Organic Molecules4 min

7.3.6. Naming Organic Molecules with Odd Functional Groups2 min

7.3.7. Nomenclature Practice

7.3.8. Practice: Naming Problem 2

7.3.9. Practice: Naming Problem 3

7.4.1. Conformational Isomers

7.4.2. Newman Projections3 min

7.4.3. Rotomers of 2-methylbutane2 min

7.4.4. Newman Projection Conversion Concept Clarifier

7.4.5. Anti vs Gauche Interactions3 min

7.4.6. Ranking the Energy of Rotomoers Practice Question #2

7.4.7. Drawing Most Stable Rotomer Practice Question

7.4.8. Cyclohexane Rings3 min

7.4.9. Chair Flip Practice

7.4.10. 1,3-diaxial Interactions in Cyclohexane Rings2 min

7.4.11. Energy of Chair Structures Practice Question

7.5.1. Confirmations and Stereochemistry Introduction1 min

7.5.2. E vs Z4 min

7.5.3. Example: Which Molecules have Cis and Trans Isomers3 min

7.5.4. Concept Clarifier

7.5.5. Practice: Naming Alkenes with Stereochemistry1 min

7.5.6. Chirality5 min

7.5.7. Optical Isomers, R vs S6 min

7.5.8. Asymmetric Centers Example

7.5.9. Practice: Molecules which display chirality2 min

7.5.10. Practice: Assigning Stereocenters

7.5.11. Practice: Assigning Stereocenters

7.5.12. Unrelated vs Diastereomers vs Enantiomers vs Identical5 min

7.5.13. Stereoisomer practice problems

7.5.14. Isomer Summary

8. Intro to Reactions

55min

8.1.1. General Types of Organic Reactions2 min

8.1.2. Nucleophiles and Electrophiles1 min

8.1.3. Nucleophilic Substitution Reactions3 min

8.1.4. Concept Clarifier

8.1.5. SN2 Product Prediction Concept Clarifier

8.1.6. Elimination Reactions2 min

8.1.7. Addition to Alkenes and alkynes3 min

8.1.8. Markovnikov's Rule1 min

8.1.9. Predict the Products Alkene Addition

8.1.10. Alkene Addition Practice Problem

8.1.11. Practice: Bromine Addition Problem

8.1.12. Addition Polymerization4 min

8.1.13. Example: Converting a Monomer to a Polymer2 min

8.1.14. Polymer Formation Questions

8.1.15. Practice: Monomer Identification

8.1.16. Practice: Polymer Identification

8.2.1. Periodic Trends Summary Sheet

8.2.2. General Trends in p-block Bonding3 min

8.2.3. Oxidation States Theory3 min

8.2.4. Example: Oxidation States in the Hydroxide Ion32 sec

8.2.5. Oxidation State Practice Questions

8.2.6. Practice: Oxidation State of Sulphur in Sulphate and Sulphite1 min

8.2.7. Practice: Oxidation State of Carbon in Methane21 sec

8.3.1. Where does Hydrogen Belong?3 min

8.3.2. Alkali Metals (Group 1)2 min

8.3.3. Alkali Earth Metals (Group 2)2 min

8.3.4. Group 1 vs Group 22 min

8.3.5. Explaining the Appearance of Sodium

8.3.6. Rationalizing Reactivity

8.4.7. Practice: Element Hydrides

8.4.8. Practice: Halogen Acids

9. Transition Elements and Their Coordination Compounds

31min

9.1.1. Complexes and ligands8 min

9.1.2. Writing Chemical Formulas of Transition Metal Complexes5 min

9.1.3. Isomers3 min

9.1.4. Stereoisomers6 min

9.1.5. Transition Metal Complexes Practice Question

9.1.6. Practice: Isomers

9.1.7. Practice: Isomers II

9.1.8. Practice: Transition Metal Shapes

9.1.9. Practice: Transition Metal Complexes

9.1.10. Stereochemistry of Transition Metals Summary

9.2.1. Crystal Field Theory4 min

9.2.2. Color of Transition Metal Complexes2 min

9.2.3. Steps to Understanding Transition Metal Complex Colours2 min

9.2.4. Paramagnetism and High-Spin/Low-Spin Complexes2 min

9.2.5. Practice: Transition Metal Complex Absoprtion

9.2.6. Practice: Transition Metal Complex Colours

9.2.7. Practice: High Spin vs Low Spin

Mock Exams

ME.1. Midterm Exam - Mock Assessment36 Qns

ME.2. Final Exam - Mock Assessment60 Qns

CHEM 110

Course Overview

Grade Boosters

1. Quantum Theory and Atomic Structure

2. Electron Configuration and Chemical Periodicity

3. Models of Chemical Bonding

4. The Shapes of Molecules

5. Theories of Covalent Bonding

6. Intermolecular Forces

7. Organic Compounds

8. Intro to Reactions

9. Transition Elements and Their Coordination Compounds

Mock Exams

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