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Introduction

  1. Introduction to Matter, Elements, & Atoms
  2. Oxidation & Reduction Concept
  3. Wave Function & Schrödinger’s Equation
  4. Types of Chemical Reactions
  5. Collision Theory
  6. Mendeleev’s Periodic Table
  7. Introduction to Polyatomic Ions

MODULE 1 – THE MOLE CONCEPT

  1. The Mole
  2. Molar Mass
  3. Molar Volume
  4. Limiting Reagent or Reactant
  5. Stoichiometry
  6. Avogardro’s Number
  7. Relative Atomic Mass
  8. Empirical Formula
  9. Limiting Reactant – Photosynthesis Example
  10. Carbon Isotopes
  11. Convert Mass to Moles
  12. Molecular Mass Vs Formula Mass
  13. Percent Yield

Module 2a – Energy Levels

  1. What are Valence Electrons?
  2. The Lewis Dot Structure
  3. Bohr vs Schrödinger
  4. How to write electron configuration
  5. Atomic Structure
  6. Electron Configurations
  7. Orbits Vs Orbitals, and Electron Cloud
  8. Ionization Energy
  9. Periodic Table Trends
  10. The Octet Rule of Electron Configuration
  11. Levels, sublevels, X-Y-Z Orbitals (diagram only)

Module 2b – Introduction to Bonds

  1. Single, Double, Triple Bonds
  2. Sigma and Pi Bonds
  3. Electronegativity
  4. Ionic Bond
  5. Hybridization of Orbitals
  6. Covalent Bonds, Non-polar & Polar
  7. Why is water polar and has a bent shape?

Module 3 – Colligative Property

  1. Atomospheric Pressure
  2. Colligative Properties
  3. Vapor Pressure Lowering
  4. Vapor Pressure
  5. Van’t Hoff factor (*no video)
  6. Freezing Point Depression
  7. Molality or Molal Concentration
  8. Kb & Kf Constants (* no video)
  9. Boiling Point Elevation

Module 4 – Solutions

  1. Solutions – Introduction
  2. Molarity – Moles per Liters
  3. Solvation
  4. Energy in Dissolving
  5. Salt (NaCl) dissolves in water
  6. Solubility
  7. Molality – Moles Per Kg
  8. Sublimation
  9. Properties of Colloid (*no video yet)
  10. Carbon dioxide (CO2) dissolves in water
  11. Comparing Salt and Sugar Solution
  12. Dissociation
  13. Osmosis
  14. Brownian Motion
  15. Ionic Solution – Galvanic Cell

Module 5 – Gas Laws

  1. Ideal Gases Vs Real Gases
  2. Kinetic Theory
  3. Gas Relationships – Gay Lussac’s Law
  4. Gas Properties & PV = nRT
  5. Gas Relationships – Charle’s Law
  6. The Combined Gas Law
  7. Avogadro’s Hypothesis
  8. Gas Relationships – Boyle’s Law
  9. Kinetic Energy – Boltzmann’s Constant


Module 6 – Acids & Bases

  1. Introduction to acids & bases
  2. Arrhenius Theory of Acids & Bases
  3. Bronsted-Lowry Theory of Acids
  4. Lewis Theory of Acids and Bases
  5. Weak and Strong Bases
  6. Conjugate Acids & Bases
  7. Strong Acid & Weak Conjugate Base
  8. pH Scale & Litmus Paper
  9. Sodium reacts with water to form hydroxide
  10. Neutralization of acids and bases
  11. Weak & Strong Acids
  12. Lithium Reacts with Water
  13. Salt (* no video yet)
  14. Polyprotic Acids

Module 7 – Thermodynamics

  1. State Function
  2. Gibb’s Free Energy
  3. Hess Law & Methane Formation
  4. Open, Closed & Isolated Systems
  5. 1st Law of Thermodynamics
  6. Enthalpy
  7. Internal Energy
  8. Hess Law
  9. 2nd Law of Thermodynamics – Entropy

Module 8 – Equilibrium

  1. Dynamic Equilibrium
  2. Equilibrium Constant
  3. Le Charlier’s Principle
  4. Haber Process