All Episodes

3.06.2 - Total Ionic Equations - Student Question

3.03b - % m/v m/m v/v Concentrations

Lesson E18: Alcohol Functional Group

1.21 - Molecular Polarity

Lesson E17: Introduction to the Functional Groups

Lesson E15: Reactions of Alkene & Alkynes - Addition Reactions

Lesson E14: Reactions of Alkanes - Substitution Reactions

Lesson E11 - Aldehydes & Ketones - 19:53

Lesson F5 - Hess's Law of Heat Summation - 37:21

Lesson F4: Representing Enthalpy Changes - 44:28

6.03 - Molar Enthalpies Part 2 - 24:49

6.02 - Molar Enthalpies Part 1 - 22:18

6.01 - Changes in Matter and Energy: Intro to Enthalpy - 41:19

Lewis Dot Diagram of Phosphate Ion - 10:50

Lab STS: Formation of Hydrate Lab

Station #12: Cupric Sulfate + Sodium Hydroxide by James - 1:30

Station #11: Sulfuric Acid + Sodium Hydroxide by James - 2:03

Station #10: Sodium Nitrate + Potassium Chloride by James - 1:27

Station #9: Sodium Hydroxide + Ammonium Nitrate by Marc - 2:19

Station #8: Calcium Chloride + Potassium Carbonate by Danielle - 2:03

Station #7: Iron + Cupric Sulfate by Danielle - 1:53

Station #6: Zinc + Hydrochloric acid by Marc - 1:59

Station #5: Calcium + Water by Marc - 3:50

Station #4: Electrolysis of Water by Danielle - 0:46

Station #3: Burning Methane by Cindy - 2:00

Station #2 - Burning a Candle by Cindy - 1:35

Station #1: Burning Magnesium Ribbon by Cindy - 3:31

1.09 - Atom Subatomic Particles Chemical Notation

1.08 - Daltons vs Modern Atomic Theory

1.07 - Atomic Theory of Matter

1.06 - Classifying Matter

1.05 - Physical vs Chemical Changes

1.02 - Using Measurements to Describe Matter

1.01 - Physical and Chemical Properties

1.16 - Drawing Lewis Dot Structures of Ionic and Covalent Compounds - 46:05

Lesson E7 - Cyclic Hydrocarbon Rings - 22:30

Lesson E6 - Naming & Drawing Alkyne Hydrocarbons - 24:39

Lesson E5 - Naming & Drawing Alkenes - 26:42

Lesson E4 - Naming & Drawing Alkanes - 36:00

Lesson E3 - Classifying Hydrocarbons Lecture - 6:39

Lesson E2 - Representing Hydrocarbons - 13:51

Lesson E1 - Introducing Organic Compounds Lecture - 8:02

4.10 - Gas Law Stoichiometry - 34:30

4.09 - Application of the Ideal Gas Law - 36:26

4.08 - The Ideal Gas Law Lecture - 57:39

4.07 - Dalton's Law of Partial Pressure Lecture

4.04 - Combined Gas Law Calculations Lecture - 23:42

4.03 - Gases and Temperature Changes (Charles & Gay-Lussacs Laws) Lecture - 38:23

4.02 - Gas Pressure and Volume (Boyle's Law) Lecture - 46:29

3.10 - Acid-Base Reactions Lecture

3.09 - Strong and Weak Acids & Bases

3.08 - Acid-Base Theories

3.07 - Stoichiometry in Aqueous Solutions

3.06 - Reactions of Aqueous Solutions

3.05 - General Solubility Guidelines

3.04 - Preparing Solutions Lecture

3.03 - Concentration of Solutions: Molarity

3.02 - Factors That Affect Dissolving and Solubility Lecture

3.01 - Types of Solutions Lecture

2.09 - Percentage Yield: Actual & Theoretical

2.08 - The Limiting Reactant

2.07 - Stoichiometry

2.06 - Calculating Formulas of Hydrate Compounds

2.05 - Carbon Hydrogen Combustion Analyzer Calculations

2.04 - Calculating Empirical and Molecular Formulas of Compounds

2.03 - Percentage Composition

2.02 - Calculating Molar Mass Lecture

2.01 - Avogadro Constant & the Mole

1.15 - Covalent & Metallic Bonding

1.14 - Electronegativity

1.20 - Electron Configuration

1.13 - Periodic Table Trends: Atomic Size, Ionization Energy & Electron Affinity

1.12 - Trends in the Periodic Table

1.11 - Designing the Periodic Table

1.10 - Isotopes, Isotopic Abundance & Average Atomic Mass

1.04 - Significant Digits Rule for Calculations

1.03 - Significant Digits: When is a Zero Significant?

4.06 - Gas Laws Overview - 6:49

4.05 - Introduction to Gas Laws - 5:13

1.17 - VSPER Theory Shapes Detailed

1.18 - VSPER Theory Shape Rules

VSPER Theory Introduction II - 6:37

VSPER Theory Introduction I - 4:35