1. Module 1: Atoms, Ions, & Isotopes

42min

1.1.1. The Atom and its Subatomic Particles4 min

1.1.2. Example4 min

1.1.3. Practice2 min

1.2.1. Isotopes and Atomic Mass5 min

1.2.2. Example2 min

1.2.3. Practice6 min

1.2.4. Practice9 min

1.3.1. The Periodic Table of Elements9 min

1.3.2. Practice2 min

1.Q. Exam Practise & Problems5 Qns

2. Module 1: Stoichiometry

2.5hr

2.1.1. Balancing Reactions3 min

2.1.2. Reaction Stoichiometry8 min

2.1.3. Example3 min

2.1.4. Polyatomic Ions 1 min

2.3.1. Intro to Stoichiometry4 min

2.3.2. Stoichiometry: Putting it All Together6 min

2.4.1. Introduction to Limiting Reagents5 min

2.5.1. Percent Yield 5 min

2.5.2. Example7 min

2.5.3. Practice5 min

2.5.4. Practice

2.6.1. Mass Percentage2 min

2.6.2. Example

2.6.3. Practice

2.7.1. Empirical Vs Molecular Formulas1 min

2.7.2. Example

2.8.1. Example #17 min

2.8.2. Example #25 min

2.8.3. Practice

2.8.4. Practice

2.9.1. Introduction to Combustion Reactions3 min

2.9.2. Determining Empirical Formulae from Combustion Reactions4 min

2.9.3. Example8 min

2.9.4. Practice

2.Q. Exam Practise & Problems7 Qns

3. Module 1: Chemical Reactions

1.9hr

3.1.1. Combustion Reactions3 min

3.1.2. Classifying Reactions4 min

3.1.3. Example

3.2.1. Solubility Chart 8 min

3.2.2. Example5 min

3.2.3. Example5 min

3.2.4. Practice

3.3.1. Definitions of Acids and Bases 3 min

3.3.2. Acids 2 min

3.3.3. Bases2 min

3.3.4. Neutralization Reactions

3.4.1. Three Ways to Write Out Chemical Reactions11 min

3.4.2. Practice

3.4.3. Relating Net Ionic Equations to Ionization of Acids and Bases8 min

3.5.1. Electrical Conductivity of Aqueous Solutions 4 min

3.6.1. Titration Problem Introduction4 min

3.6.2. Example7 min

3.7.1. Oxidation States7 min

3.7.2. Oxidation States - Additional Information5 min

3.7.3. Example3 min

3.7.4. Practice

3.7.5. Practice

3.8.1. Redox Reactions Theory8 min

3.8.2. Practice3 min

3.8.3. Practice49 sec

3.8.4. Practice

3.9.1. Balancing Redox Reactions-Half Reaction Method 18 min

3.9.2. Practice

4. Module 1: Acids and Bases

2.5hr

4.I. Chapter Intro4 min

4.1.1. Definitions of Acids and Bases 10 min

4.2.1. Identifying Conjugate Acid and Base Pairs 7 min

4.2.2. Practice2 min

4.3.1. pH Scale 7 min

4.3.2. Example2 min

4.3.3. Example6 min

4.3.4. Practice

4.4.1. Acids and their Equations7 min

4.4.2. Practice4 min

4.4.3. Acids With Different Numbers of Protons5 min

4.5.1. Bases and their Equations6 min

4.6.1. Example

4.6.2. Example21 min

4.6.3. Types of Acid or Base Reactions and pH Calculations Summary

4.7.1. Autoionization of Water (Kw) 6 min

4.7.2. Practice

4.7.3. Example2 min

4.7.4. Example6 min

4.7.5. pH Scale 7 min

4.8.1. Percent Ionization or Dissociation2 min

4.8.2. Example7 min

4.9.1. Acid Base Equations Cheatsheet

4.9.2. Acid/Base Important Relationships Cheatsheet

4.10.1. Relationships Between the Strength of an Acid/Base and its Conjugate Base/Acid5 min

4.10.2. How to Determine the Stronger Acid by Looking at Conjugate Bases14 min

4.10.3. Acidity of Oxyacids4 min

4.11.1. Acidic, Basic, and Neutral Salts 8 min

4.11.2. Salts (Cntd.)3 min

4.11.3. Example1 min

4.11.4. Example5 min

4.11.5. Practice

4.11.6. Salts Cheatsheet

5. Module 2: Gases and their Properties

2.5hr

5.1.1. Phases of Matter3 min

5.2.1. Kinetic Molecular Theory 7 min

5.3.1. The Ideal Gas Law5 min

5.3.2. Example2 min

5.3.3. Example7 min

5.3.4. Practice8 min

5.4.1. Gas Laws11 min

5.4.2. Example5 min

5.4.3. Practice3 min

5.4.4. Practice

5.5.1. Mercury Barometer5 min

5.5.2. Practice: Barometer

5.6.1. Applications of the Ideal Gas Law3 min

5.6.2. Standard Molar Volume 5 min

5.7.1. Real Gases and the Van der Waals Equation16 min

5.7.2. Real Gases vs Ideal Gases & the Compressibility Factor5 min

5.7.3. Example4 min

5.7.4. Example

5.7.5. Practice

5.8.1. Gas Mixtures & Partial Pressures6 min

5.8.2. Example2 min

5.8.3. Practice4 min

5.8.4. Practice

5.9.1. Diffusion & Effusion7 min

5.9.2. Practice4 min

5.9.3. Practice

5.10.1. Relationships Between Kinetic Energy, Temperature, and Speeds!9 min

5.10.2. Root Mean Squared Speed Equation3 min

5.10.3. Example5 min

5.10.4. Example5 min

5.10.5. Practice1 min

5.10.6. Practice

5.Q. Exam Practise & Problems18 Qns

6. Module 2: Intermolecular Forces and Physical Properties

1.9hr

6.1.1. Intramolecular vs Intermolecular Forces5 min

6.1.2. Intermolecular Forces Theory15 min

6.1.3. Example

6.1.4. Example

6.1.5. Practice9 min

6.2.1. Types of Intermolecular Forces (more detailed version)9 min

6.2.2. Strength of Intermolecular Forces Cheatsheet

6.3.1. Phases of Matter3 min

6.3.2. Intermolecular Forces and Boiling Point11 min

6.3.3. Other Physical Properties and Intermolecular Forces6 min

6.4.1. Viscosity 5 min

6.4.2. Surface Tension6 min

6.4.3. Capillary Action10 min

6.4.4. Example4 min

6.4.5. Example

6.4.6. Practice

6.4.7. Practice 8 min

6.5.1. Vapour Pressure Equation

6.5.2. Practice

6.Q. Exam Practise & Problems5 Qns

7. Module 2: Phase Transitions and Phase Diagrams

1hr

7.1.1. Phase Transitions7 min

7.1.2. Practice

7.2.1. Introduction to the Heat Curve15 min

7.2.2. Important Things to Know About the Heat Curve6 min

7.2.3. Example8 min

7.2.4. Practice

7.2.5. Practice

7.3.1. Phase Diagrams13 min

7.3.2. Extra Low Yield Information for Phase Diagrams4 min

7.Q. Exam Practise & Problems14 Qns

8. Module 2: Chemical Bonding

1.3hr

9. Module 3: Thermodynamics: Part 1

2.3hr

9.1.1. Thermodynamics4 min

9.1.2. State Variables 3 min

9.1.3. Example2 min

9.1.4. Extensive vs Intensive Properties 2 min

9.1.5. Additional Terminology5 min

9.2.1. 0th Law of Thermodynamics 3 min

9.3.1. The 1st Law of Thermodynamics7 min

9.3.2. Signs of Heat and Work & Calculating Work4 min

9.3.3. Example5 min

9.3.4. Practice1 min

9.3.5. Practice3 min

9.4.1. Expansion Due to Chemical Reaction8 min

9.4.2. Example4 min

9.4.3. Practice2 min

9.5.1. Calorimetry12 min

9.5.2. Heat Capacity of Ideal Gases2 min

9.5.3. Practice3 min

9.5.4. Practice

9.6.1. Heat Capacity and Calorimetry13 min

9.6.2. Example7 min

9.6.3. Example6 min

9.6.4. Practice56 sec

9.6.5. Practice10 min

9.6.6. Example7 min

9.6.7. Practice

9.7.1. Enthalpy of Reaction2 min

9.7.2. Example4 min

9.8.1. Heats of Formation6 min

9.8.2. Example

9.8.3. Practice

9.8.4. Practice

9.9.1. Bond Energies4 min

9.9.2. Example

9.9.3. Practice

9.10.1. Hess’ Law5 min

9.10.2. Practice

9.10.3. Practice [challenging]1 min

10. Module 4: Equilibrium

2.6hr

10.I. Chapter Intro3 min

10.1.1. Introduction to Equilibrium 2 min

10.1.2. Understanding Equilibrium3 min

10.2.1. Concentration vs Time Graphs4 min

10.2.2. Practice3 min

10.2.3. Practice6 min

10.3.1. Equilibrium Constant (K)10 min

10.3.2. The Magnitude of the Equilibrium Constant, K8 min

10.3.3. Practice2 min

10.3.4. Practice4 min

10.4.1. Manipulating Equilibrium Constants5 min

10.4.2. Practice7 min

10.5.1. Solving for Kc vs Kp 5 min

10.6.1. Predicting Equilibria: The Reaction Quotient (Q) 6 min

10.6.2. Example4 min

10.6.3. Practice3 min

10.6.4. Practice

10.7.1. Le Chatelier's Priniciple14 min

10.7.2. Practice6 min

10.7.3. Practice

10.8.1. Changes to Concentration Time Graphs Based on Changes To The System11 min

10.8.2. Le Châtelier's Principle - Change in Concentration2 min

10.8.3. Le Châtelier's Principle - Change in Volume/Pressure3 min

10.8.4. Le Châtelier's Principle - Change in Temperature3 min

10.8.5. Le Châtelier's Principle - Other2 min

10.9.1. Intro to ICE Tables

10.9.2. Example 19 min

10.9.3. Example 29 min

10.9.4. Example 33 min

10.9.5. Example 49 min

10.9.6. Example 512 min

10.Q. Exam Practise & Problems9 Qns

11. Module 4: Thermodynamics: Part 2

1.1hr

11.1.1. 2nd Law of Thermodynamics (Entropy)6 min

11.1.2. Factors Affecting Entropy Changes 10 min

11.1.3. Example1 min

11.1.4. Practice1 min

11.1.5. Practice4 min

11.2.1. Additional Equations for Entropy

11.2.2. Example: Entropy Calculation3 min

11.2.3. Example: Entropy Calculation9 min

11.3.1. 3rd Law of Thermodynamics1 min

11.3.2. Summary of the Laws of Thermodynamics

11.4.1. Gibbs Free Energy and Spontaneity2 min

11.4.2. Spontaneity 7 min

11.4.3. Example: Spontaneity of a Reaction

11.4.4. Predicting Spontaneity Based off Entropy2 min

11.5.1. Chemical Equilibrium and ΔG Equations5 min

11.5.2. DeltaGo and K 3 min

11.5.3. Example

11.5.4. Chemical Equilibrium and ΔG Practice

11.5.5. Chemical Equilibrium and ΔG Practice #2

11.5.6. Chemical Equilibrium and ΔG Practice #3

11.5.7. Van't Hoff Practice Problem

12. Module 4: Solubility

1.3hr

12.1.1. Solubility8 min

12.1.2. Example: Ksp

12.1.3. Practice: Calculating Molar Solubility2 min

12.1.4. Practice: Solubility8 min

12.2.1. Solubility Chart 8 min

12.2.2. Q vs K to Predict Solubility5 min

12.2.3. Solubility Products3 min

12.2.4. Example5 min

12.2.5. Example5 min

12.2.6. Example: Will A Precipitate Form?16 min

12.2.7. Practice: Solubility and Equilibrium3 min

12.2.8. Practice

12.3.1. Factors that Affect Solubility2 min

12.3.2. Common-ion Effect Introduction4 min

12.3.3. Common-ion Effect Problem 7 min

12.3.4. common-ion effect

12.3.5. Practice: Molar Solubility

12.3.6. Practice: Ranking Solubility2 min

13. Early Atomic Theory to Quantum Theory

3hr

13.1.1. Review of Previous Atomic Models 12 min

13.2.1. Electromagnetic Spectrum2 min

13.2.2. Photon Equations5 min

13.2.3. Photon Equations (Cntd.)9 min

13.2.4. Example4 min

13.2.5. Example3 min

13.2.6. Practice1 min

13.2.7. Practice4 min

13.3.1. Blackbody Radiation3 min

13.4.1. The Photoelectric Effect8 min

13.4.2. The Photoelectric Effect Equation11 min

13.4.3. Example5 min

13.4.4. Practice3 min

13.4.5. Practice5 min

13.5.1. The Basics of Absorption and Emission Spectra3 min

13.5.2. Bohr's Atomic Model 12 min

13.5.3. Absorption vs Emission of a Photon3 min

13.5.4. Example4 min

13.5.5. Example3 min

13.6.1. Bohr Model Equations8 min

13.6.2. Example4 min

13.6.3. Example8 min

13.6.4. Practice 6 min

13.7.1. The Bohr Model and Atomic Line Spectra7 min

13.7.2. Relating Electronic Transitions to Emission Spectra8 min

13.7.3. Example4 min

13.7.4. Practice

13.7.5. Practice1 min

13.8.1. Wave-Particle Duality 8 min

13.8.2. Example2 min

13.8.3. Practice

13.8.4. Practice3 min

13.9.1. The Bohr Model Vs The Quantum Model6 min

13.10.1. The Heisenberg Uncertainty Principle5 min

13.10.2. Example9 min

13.10.3. Practice4 min

13.11.1. Standing Waves & Particle in a 1-D Box5 min

13.11.2. Example

13.11.3. Example43 sec

13.11.4. Practice3 min

13.12.1. Schrodinger's Equation3 min

13.Q. Exam Practise & Problems14 Qns

14. Quantum Numbers and Electron Configurations

3hr

14.1.1. Quantum Numbers11 min

14.1.2. Quantum Numbers Cheatsheet

14.1.3. Example3 min

14.1.4. Example5 min

14.1.5. Example1 min

14.1.6. Practice1 min

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

14.2.2. Drawing Atomic Orbitals7 min

14.2.3. Example3 min

14.2.4. Practice

14.3.1. Angular and Radial Nodes10 min

14.3.2. Wave Properties of Electrons4 min

14.3.3. Plotting Radial Electron Probability8 min

14.3.4. Example3 min

14.3.5. Example3 min

14.3.6. Example2 min

14.3.7. Practice4 min

14.3.8. Nodes7 min

14.4.1. Relative Energies of Atomic Orbitals11 min

14.4.2. Rules for Orbital Filling10 min

14.4.3. Example2 min

14.4.4. Example1 min

14.4.5. Practice2 min

14.4.6. Practice

14.5.1. Electronic Configurations of Atoms11 min

14.5.2. Electron Configurastions Cheatsheet

14.5.3. Electron Configuration Exceptions5 min

14.5.4. Example3 min

14.5.5. Example3 min

14.5.6. Practice

14.5.7. Practice4 min

14.5.8. Practice

14.6.1. Electron Configurations of Ions of Main Group Elements9 min

14.6.2. Electron Configuration of Ions of Transition Elements2 min

14.6.3. Example5 min

14.6.4. Example5 min

14.6.5. Practice3 min

14.7.1. Diamagnetic Vs Paramagnetic 7 min

14.7.2. Example8 min

14.7.3. Practice

14.8.1. Ground State Vs Excited State Electron Configurations6 min

14.8.2. Example2 min

14.8.3. Example

14.8.4. Practice4 min

14.8.5. Practice5 min

14.Q. Exam Practise & Problems11 Qns

15. Periodic Table Trends

2.1hr

15.1.1. Effective Nuclear Charge 9 min

15.1.2. Example1 min

15.1.3. Practice2 min

15.2.1. Atomic Radius7 min

15.2.2. Ionic Radius7 min

15.2.3. Example2 min

15.2.4. Example3 min

15.2.5. Practice1 min

15.3.1. Ionization Energy 5 min

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

15.3.3. Practice2 min

15.3.4. Practice2 min

15.3.5. Practice5 min

15.4.1. Electron Affinity 10 min

15.4.2. Example2 min

15.4.3. Practice2 min

15.4.4. Practice4 min

15.5.1. Electronegativity 4 min

15.5.2. Example47 sec

15.5.3. Practice3 min

15.6.1. Periodic Trends Theory2 min

15.6.2. Example5 min

15.6.3. Practice4 min

15.6.4. Practice7 min

15.6.5. Practice2 min

15.7.1. Exceptions to Periodic Trends Introduction3 min

15.7.2. Exceptions to Periodic Trends Examples10 min

15.7.3. Exceptions to Periodic Trends Summary2 min

15.7.4. Example3 min

15.7.5. Practice4 min

15.Q. Exam Practise & Problems9 Qns

16. Lewis Structures & Resonance Structures

1.9hr

16.1.1. Drawing Lewis Structures 17 min

16.1.2. Example11 min

16.1.3. Example7 min

16.1.4. Practice

16.1.5. Practice7 min

16.2.1. Resonance Structures Theory7 min

16.2.2. Equivalent Vs Non-Equivalent Resonance Structures5 min

16.2.3. Example7 min

16.2.4. Example13 min

16.2.5. Practice

16.2.6. Practice

16.3.1. Lewis Structures of Acids2 min

16.3.2. Lewis Structures of Acids and Salts6 min

16.3.3. Example: Lewis Structures of Sulphuric Acid3 min

16.3.4. Practice: Acids and Salts2 min

16.4.1. Lewis Structures of Organic Compounds4 min

16.4.2. Resonance in Organic Molecules1 min

16.4.3. Example: Benzene Derivatives2 min

16.4.4. Example: Organic Compounds5 min

16.4.5. Example: Resonance II2 min

16.4.6. Practice: Identifying Resonance Structures

16.5.1. Filling in a Skeletal Structure3 min

16.5.2. Example: Skeletal Structure 13 min

16.5.3. Practice: Organic Compounds3 min

16.5.4. Practice: Skeletal Structure 232 sec

16.5.5. Practice: Benzene Derivatives 24 min

16.Q. Exam Practise & Problems5 Qns

17. VSEPR Shapes and Polarity

1.1hr

17.1.1. VSEPR Theory20 min

17.1.2. Example10 min

17.1.3. Example6 min

17.1.4. Practice

17.1.5. Practice

17.1.6. VSEPR and Molecular Shapes Cheatsheet

17.2.1. Review of Polar Covalent Bonds

17.2.2. Molecular Polarity 8 min

17.2.3. Example8 min

17.2.4. Practice

17.2.5. Practice3 min

17.3.1. VSEPR Theory for Organic Compounds4 min

17.3.2. VSEPR Shapes for Organic Compounds - Example Problem2 min

17.3.3. Practice Question: VSEPR Theory for Organic Compounds2 min

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

17.Q. Exam Practise & Problems8 Qns

18. Valence Bond Theory (Hybridization)

1.8hr

18.1.1. Introduction to Hybridization5 min

18.1.2. Determining Hybridization7 min

18.1.3. Example8 min

18.1.4. Example4 min

18.1.5. Example: Determine the Hybridization on Carbon2 min

18.1.6. Practice

18.2.1. Introduction to Valence Bond Theory6 min

18.2.2. Valence Bond Theory and Hybridization11 min

18.2.3. Example: Valence Bond Description of O

_2

and N

_2

4 min

18.2.4. Practice: Bonding in Methyldiazene1 min

18.2.5. Practice: Bonding in Methyldiazene Part 21 min

18.3.1. Sigma and Pi Bonds2 min

18.3.2. Sigma and Pi Bonds 3 min

18.3.3. Practice

18.4.1. Example: Drawing Orbital Overlap Diagrams7 min

18.4.2. Example: Valence Bond Description of Acetone6 min

18.5.1. sp3 Hybridization8 min

18.5.2. sp3 Hybridization - Example Problem4 min

18.5.3. sp2 Hybridization3 min

18.5.4. sp2 Hybridization - Example Problem2 min

18.5.5. sp Hybridization2 min

18.5.6. sp Hybridization - Example Problem2 min

18.5.7. Unhybridized p Orbitals7 min

18.5.8. Unhybridized p Orbitals - Example Problem4 min

18.5.9. dsp3 and d2sp3 Hybridization3 min

18.5.10. dsp3 Hybridization - Example Problem2 min

18.5.11. d2sp3 Hybridization - Example Problem2 min

18.5.12. Practice Question: Hybridization with d Orbitals3 min

18.Q. Exam Practise & Problems7 Qns

19. Molecular Orbital Theory

1.4hr

19.1.1. Molecular Orbital Theory Introduction3 min

19.1.2. How to Draw MO Diagrams for Homonuclear Diatomics8 min

19.1.3. Example: Molecular Orbitals of Li

_2

2 min

19.1.4. Example: Molecular Orbitals of HeH

^+

3 min

19.1.5. Practice: Diamagnetic Diatomics2 min

19.1.6. Practice: MO Orbitals Problem2 min

19.1.7. Practice: Molecular orbital (Challenging Problem)

19.2.1. Molecular Orbital Theory 3 min

19.2.2. Drawing MO Diagrams5 min

19.2.3. Example: Molecular Orbital Theory Questions5 min

19.2.4. Practice: Bond Order2 min

19.3.1. Example: MO Diagrams of 2s Block Molecules2 min

19.3.2. MO Diagrams of 2p Block Molecules10 min

19.3.3. s-p Mixing in MO Diagrams6 min

19.3.4. Example: MO Diagrams with s-p Mixing5 min

19.3.5. MO Diagrams without s-p Mixing - Example Problem4 min

19.3.6. Practice Question: MO Diagrams of Homonuclear Diatomics6 min

19.3.7. Practice Question: MO Diagrams of Neutral and Ionic Diatomics4 min

19.4.1. MO Diagrams of p Heteronuclear Diatomics3 min

19.4.2. MO Diagrams of p and s Heteronuclear Diatomics5 min

19.4.3. Example: MO Diagrams of p Heteronuclear Diatomics2 min

19.4.4. Example: MO Diagrams of p and s Heteronuclear Diatomics3 min

19.4.5. Practice: MO Diagrams of Heteronuclear Diatomics2 min

19.Q. Exam Practise & Problems9 Qns

20. Buffers and Titrations

2.8hr

20.1.1. Strong Base + Strong Acid Reactions3 min

20.1.2. Strong Base + Weak Acid Reactions4 min

20.1.3. Weak Base + Strong Acid Reactions3 min

20.1.4. Practice9 min

20.2.1. Introduction to Buffers6 min

20.2.2. Buffers Problem Type 16 min

20.2.3. Example3 min

20.3.1. Buffers Problem Type 22 min

20.3.2. Example6 min

20.4.1. Buffers Problem Type 32 min

20.4.2. Example6 min

20.4.3. Practice

20.5.1. Forming Buffers6 min

20.5.2. Example2 min

20.5.3. Example4 min

20.6.1. Effective Buffer Range5 min

20.6.2. Practice2 min

20.7.1. Example5 min

20.8.1. Introduction to Titrations 5 min

20.8.2. Labeling a Titration Curve9 min

20.8.3. Titration Curves17 min

20.8.4. Practice

20.9.1. Example (Challenging)19 min

20.9.2. Example (Challenging)37 min

20.10.1. Indicators8 min

20.10.2. Practice

21. Introduction to Organic Chemistry

2.3hr

21.1.1. What is Organic Chemistry?

21.1.2. 5 Ways to Represent Alkane Structures5 min

21.1.3. Line Bond Drawing6 min

21.1.4. A Closer Look at Line Drawings

21.1.5. Example

21.2.1. Introduction to Hydrocarbons7 min

21.2.2. Cyclic Hydrocarbons56 sec

21.2.3. Hydrocarbons2 min

21.3.1. Introduction to Functional Groups 12 min

21.3.2. Functional Groups3 min

21.3.7. Practice3 min

21.3.8. Functional Groups Cheatsheet

21.4.1. Properties of Hydrocarbons10 min

21.4.2. Summary of Properties (Polarity)2 min

21.4.3. Practice

21.5.1. IR Spectroscopy

21.5.6. Infrared Spectroscopy Cheatsheet

21.6.1. Naming Simple Hydrocarbons4 min

21.6.2. Nomenclature Cheatsheet

21.7.1. Functional Groups12 min

21.7.2. Steps to Naming Complex Organic Molecules4 min

21.7.3. Naming Organic Molecules with Odd Functional Groups2 min

21.7.4. Example

21.7.5. Practice

21.7.6. Practice

21.7.7. Functional Group Parent Names Cheatsheet

21.8.1. Constitutional Isomers

21.9.1. Confirmations and Stereochemistry Introduction1 min

21.9.2. Cis vs Trans4 min

21.9.3. Example3 min

21.9.4. Practice

21.10.1. Chirality5 min

21.10.2. Example

21.10.3. Practice2 min

21.11.1. Conformational Isomers

21.11.2. Newman Projections3 min

21.11.3. Example

21.11.4. Anti vs Gauche Interactions3 min

21.11.5. Example2 min

21.11.6. Practice

21.11.7. Practice

21.12.2. Practice

21.13.1. Isomerism7 min

21.13.2. Example6 min

21.13.3. Isomers in Summary

21.13.4. Isomer Summary

21.14.1. Introduction to Polymers1 min

21.14.2. Addition Polymerization3 min

21.14.3. Condensation Polymerization6 min

21.14.4. Practice2 min

21.15.1. Polymerization Reactions2 min

21.15.2. Example2 min

21.15.3. Practice

21.15.4. Practice41 sec

22. Organic Chemistry Reactions

47min

22.1.1. General Types of Organic Reactions2 min

22.1.2. Nucleophiles and Electrophiles1 min

22.2.1. General Nucleophilic Substitution Reactions2 min

22.2.2. Concept Clarifier

22.3.1. The SN2 Mechanism4 min

22.3.2. SN2 Product Prediction Concept Clarifier

22.3.3. Factors that Favour an SN2 Mechanism3 min

22.3.4. Favouring SN2 Concept Clarifier

22.4.1. The SN1 Mechanism4 min

22.4.2. Factors that Favour SN1 Mechanisms3 min

22.4.3. Favouring SN1 Concept Clarifier

22.5.1. Predicting the Mechanism of Nucleophilic Substitution Reactions Practice Question

22.5.2. Nuclophilic Subsitution Practice Question3 min

22.6.1. Elimination Reactions2 min

22.6.2. Factors which affect E1/E2 Eliminations3 min

22.6.3. Predicting Elimination Mechanisms

22.7.1. Addition to Alkenes and alkynes3 min

22.7.2. Markovnikov's Rule1 min

22.7.3. Predict the Products Alkene Addition

22.7.4. Alkene Addition Practice Problem

22.7.5. Alkyne Reductions2 min

22.7.6. Example: Alkene and Alkyne Additions3 min

22.7.7. Alkyne Reduction

22.7.8. Practice: Bromine Addition Problem

22.8.1. Electrophilic Aromatic Substitution3 min

22.9.1. Chain Reactions2 min

22.9.2. Alkane Halogenation4 min

22.9.3. Halogenation

22.9.4. Alkane Halogenation Practice Question

22.10.1. Condensation Reactions3 min

22.10.2. Practice: Condensation Reactions 1

22.10.3. Practice: Condensation Reactions 2

23. Kinetics

2.4hr

23.1.1. Introduction to Kinetics1 min

23.2.1. Reaction Rates 3 min

23.2.2. Measuring Reaction Rates4 min

23.2.3. Practice: Rate of Reaction6 min

23.2.4. Practice: Rate of Reaction5 min

23.3.1. Rate Laws2 min

23.3.2. Example: Determining Reaction Order44 sec

23.3.3. Determining the Rate Law From Experimental Data 10 min

23.3.4. Shortcut to Find Units of k Quicker 3 min

23.3.5. Practice: Experimental Rate Law 6 min

23.3.6. Practice: Determining Rate Law Exponents

23.3.7. Practice: Rate Law1 min

23.3.8. Practice: Units of the Rate Constant, K5 min

23.4.1. Integrated Rate Laws for Various Orders 7 min

23.4.2. Example: Plotting a Straight Line with the Integrated Rate Laws

23.4.3. Practice: Integrated Rate Laws Practice

23.4.4. Integrated Rate Laws Cheatsheet

23.4.5. First Order Reactions

23.4.6. Second Order Reactions

23.5.1. Half-life for Various Orders 4 min

23.5.2. Practice: Half-Life

23.5.3. Practice: Radioactive Decay in Smoke Detectors1 min

23.6.1. Arrhenius Equation1 min

23.6.2. Example: Arrhenius Equation

23.6.3. Example: Arrhenius Equation1 min

23.6.4. Practice: Arrhenius Equation

23.7.1. How Do We Measure Ea39 sec

23.7.2. Practice: Determining the Activation Energy39 sec

23.8.1. 3 Neccessary Steps For a Reaction to Occur 1 min

23.8.2. Collision Theory7 min

23.8.3. Collision Theory Represented By A Graph2 min

23.8.4. Transition State Theory 4 min

23.8.5. Additional Notes on the Arrhenius Equation 9 min

23.9.1. Reactions Mechanisms – Elementary Reactions4 min

23.9.2. Example: Reactions Mechanisms – Elementary Steps

23.9.3. Rate Determining Step Introduction 5 min

23.9.4. Example: Rate Determining Step14 min

23.9.5. Practice: Rate of A Reaction

23.9.6. Practice: Reaction Coordinate Diagram4 min

23.9.7. Practice: Mechanism

23.10.1. Catalysts3 min

23.10.2. Enzymes4 min

23.10.3. Example: Identifying a Catalyst Vs an Intermediate In a Mechanism 2 min

23.10.4. Example: Catalysts 224 sec

23.11.1. Steady State Approximation

23.11.2. Example: Steady State Approximation 11 min

23.12.1. Pre-Equilibrium4 min

23.12.2. Practice: Pre-Equilibrium

24. Electrochemistry

3hr

24.1.1. Oxidation States - Additional Information5 min

24.1.2. Practice

24.1.3. Practice

24.1.4. Oxidation States7 min

24.1.5. Example3 min

24.2.1. Redox Reactions Theory8 min

24.2.2. Practice49 sec

24.2.3. Practice3 min

24.2.4. Practice

24.3.1. Practice

24.3.2. Balancing Redox Reactions-Half Reaction Method 18 min

24.4.1. Reduction Potentials 10 min

24.4.2. How Potentials Relate to Spontaneity 7 min

24.4.3. Example: Electrochemical Cell Practice 4 min

24.4.4. Practice: Strongest Reducing Agent3 min

24.5.1. Galvanic/Voltaic Cells13 min

24.5.2. Practice: Galvanic Cells44 sec

24.5.3. Practice: Galvanic Cells 5 min

24.5.4. Example: Will A Reaction Occur? 10 min

24.5.5. Example: Electrochemistry2 min

24.5.6. Practice: Electrochemistry2 min

24.6.1. Cell Diagram 2 min

24.6.2. Practice: Cell Diagram For An Electrochemical Cell

24.6.3. Practice: Electrochemical Cells6 min

24.7.1. Cell Potential Equations 2 min

24.7.2. Example: Solving for Keq and deltaGo 5 min

24.7.3. Practice: Electrochemistry II3 min

24.7.4. Electrochemical Cells in Non-standard Conditions: Nernst Equation1 min

24.7.5. Example: Electrochemical Cell Practice with Equations11 min

24.7.6. Practice: Electrochemistry Equations

24.8.1. Types of Batteries 8 min

24.8.2. Rechargeable Batteries 13 min

24.8.3. Corrosion and Prevention11 min

24.8.4. Concentration Cells 15 min

24.9.1. Electrolytic Cells7 min

24.9.2. Faraday's Law of Electrolysis 5 min

24.9.3. Summary of Galvanic Vs Electrolytic Cell

24.9.4. G, E, and K Summary

CHEM 1100

Course Overview

1. Module 1: Atoms, Ions, & Isotopes

2. Module 1: Stoichiometry

3. Module 1: Chemical Reactions

4. Module 1: Acids and Bases

5. Module 2: Gases and their Properties

6. Module 2: Intermolecular Forces and Physical Properties

7. Module 2: Phase Transitions and Phase Diagrams

8. Module 2: Chemical Bonding

9. Module 3: Thermodynamics: Part 1

10. Module 4: Equilibrium

11. Module 4: Thermodynamics: Part 2

12. Module 4: Solubility

13. Early Atomic Theory to Quantum Theory

14. Quantum Numbers and Electron Configurations

15. Periodic Table Trends

16. Lewis Structures & Resonance Structures

17. VSEPR Shapes and Polarity

18. Valence Bond Theory (Hybridization)

19. Molecular Orbital Theory

20. Buffers and Titrations

21. Introduction to Organic Chemistry

22. Organic Chemistry Reactions

23. Kinetics

24. Electrochemistry

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