CHE 102

UWaterloo

Course Overview

Lessons & Practice

1. Unit 1: Stoichiometry

4hr

1.1.1. SI Units

1.1.2. Dimensional Analysis

1.1.3. Dimensional Analysis of Concentration

1.1.4. Practice

1.1.5. Practice

1.1.6. Practice

1.1.7. Significant Digits 7 min

1.1.8. Example: Significant Digits Practice 56 sec

1.1.9. Example: Density Problems 4 min

1.1.10. Scientific notation

1.1.11. Scientific Notation Practice

1.1.12. Unit Conversion4 min

1.1.13. Example: Unit Conversion Practice 2 min

1.3.1. Balancing Reactions3 min

1.3.2. Reaction Stoichiometry8 min

1.3.3. Example3 min

1.3.4. Practice4 min

1.4.1. Moles9 min

1.4.2. Example8 min

1.4.3. Practice5 min

1.4.4. Practice

1.4.5. Mass Percentage2 min

1.4.7. Practice

1.4.8. Empirical Vs Molecular Formulas1 min

2. Unit 2: States of Matter

3hr

2.1.1. Measurable Properties of Gases8 min

2.1.2. Kinetic Molecular Theory 7 min

2.2.1. Gas Laws11 min

2.2.2. Example5 min

2.2.3. Practice3 min

2.2.4. Practice

2.2.5. The Ideal Gas Law5 min

2.2.6. Example2 min

2.2.7. Example7 min

2.2.8. Practice8 min

2.2.9. Applications of the Ideal Gas Law3 min

2.2.10. Standard Molar Volume 5 min

2.2.11. Example10 min

2.2.12. Practice4 min

2.2.13. Practice

2.2.14. Practice

2.3.1. Gas Mixtures & Partial Pressures6 min

2.3.2. Example2 min

2.3.3. Practice4 min

2.3.4. Practice

2.4.1. Real Gases and the Van der Waals Equation16 min

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

2.4.3. Example4 min

2.4.5. Practice

3. Unit 3: Rate of Reaction

1.2hr

3.1.1. Introduction to Kinetics1 min

3.1.2. 3 Neccessary Steps For a Reaction to Occur 1 min

3.1.3. Collision Theory7 min

3.1.4. Collision Theory Represented By A Graph2 min

3.1.5. Reaction Rates 3 min

3.1.6. Measuring Reaction Rates4 min

3.1.7. Practice: Rate of Reaction6 min

3.1.8. Practice: Rate of Reaction5 min

3.2.1. Rate Laws2 min

3.2.2. Example: Determining Reaction Order44 sec

3.2.3. Determining the Rate Law From Experimental Data 10 min

3.2.4. Shortcut to Find Units of k Quicker 3 min

3.2.5. Practice: Experimental Rate Law 6 min

3.2.6. Practice: Determining Rate Law Exponents

3.2.7. Practice: Rate Law1 min

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

3.2.9. Integrated Rate Laws for Various Orders 7 min

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

3.2.11. Practice: Integrated Rate Laws Practice

3.2.12. Integrated Rate Laws Cheatsheet

3.2.13. First Order Reactions

3.2.14. Second Order Reactions

3.2.15. How Do We Measure Ea39 sec

3.2.16. Practice: Determining the Activation Energy39 sec

3.2.17. Arrhenius Equation1 min

3.2.18. Example: Arrhenius Equation

3.2.19. Example: Arrhenius Equation1 min

3.2.20. Practice: Arrhenius Equation

4. Unit 4: Phase Equilibrium

50min

4.1.1. Phase Transitions7 min

4.1.2. Practice

4.2.1. Phase Diagrams13 min

4.2.2. Extra Low Yield Information for Phase Diagrams4 min

4.2.3. Example4 min

4.2.4. Practice

4.2.5. Example5 min

4.2.6. Practice

4.3.1. Colligative Properties10 min

4.3.2. Example: Freezing Point Depression2 min

4.3.3. Practice: Vapor Pressure 2 min

4.3.4. Practice: Osmotic Pressure 3 min

5. Unit 5: Equilibrium in Reactive Systems

2.4hr

5.1.1. Introduction to Equilibrium 2 min

5.1.2. Understanding Equilibrium3 min

5.1.3. Concentration vs Time Graphs4 min

5.1.4. Practice3 min

5.1.5. Practice6 min

5.1.6. Equilibrium Constant (K)10 min

5.1.7. The Magnitude of the Equilibrium Constant, K8 min

5.1.8. Practice2 min

5.1.9. Practice4 min

5.2.1. Manipulating Equilibrium Constants5 min

5.2.3. Practice7 min

5.2.4. Solving for Kc vs Kp 5 min

5.2.5. Intro to ICE Tables

5.2.6. Example 19 min

5.2.7. Example 29 min

5.2.8. Example 33 min

5.2.9. Example 49 min

5.2.10. Example 512 min

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

5.3.2. Example4 min

5.3.3. Practice3 min

5.3.4. Practice

5.3.5. Le Chatelier's Priniciple14 min

5.3.6. Practice6 min

5.3.7. Practice

5.3.8. Chemical Equilibrium and ΔG Equations5 min

5.3.9. DeltaGo and K 3 min

5.3.10. Example

5.3.11. Chemical Equilibrium and ΔG Practice

5.3.12. Chemical Equilibrium and ΔG Practice #2

5.3.13. Chemical Equilibrium and ΔG Practice #3

6. Unit 6: Equilibrium in Electrochemical Systems

2.3hr

6.1.1. Oxidation States4 min

6.1.2. Oxidation States - Additional Information

6.1.3. Example: Oxidation State Practice 3 min

6.1.4. Practice: More Oxidation State5 min

6.1.5. Redox Reactions Theory6 min

6.1.6. Practice: Oxidation vs Reduction3 min

6.1.7. Practice: Oxidizing Agent vs Reducing Agent49 sec

6.1.8. Balancing Redox Reactions13 min

6.1.9. Practice: Balance the Redox Reaction

6.2.1. Galvanic/Voltaic Cells13 min

6.2.2. Practice: Galvanic Cells44 sec

6.2.3. Practice: Galvanic Cells 5 min

6.2.4. Example: Will A Reaction Occur? 10 min

6.2.5. Example: Electrochemistry2 min

6.2.6. Practice: Electrochemistry2 min

6.2.7. Faraday's Law of Electrolysis 5 min

6.3.1. Reduction Potentials 10 min

6.3.2. How Potentials Relate to Spontaneity 7 min

6.3.3. Practice: Strongest Reducing Agent3 min

6.4.1. Electrolytic Cells7 min

6.4.2. Example: Electrochemical Cell Practice 4 min

6.4.3. Cell Diagram 2 min

6.4.4. Practice: Cell Diagram For An Electrochemical Cell

6.4.5. Practice: Electrochemical Cells6 min

6.4.6. Cell Potential Equations 2 min

6.4.7. Example: Solving for Keq and deltaGo 5 min

6.4.8. Practice: Electrochemistry II3 min

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

6.4.10. Example: Electrochemical Cell Practice with Equations11 min

6.4.11. Practice: Electrochemistry Equations

Mock Exams

ME.1. Midterm Exam33 Qns

ME.2. Midterm Exam - Mock Assessment33 Qns

ME.3. Final Exam - Mock Assessment71 Qns

ME.2 Midterm Exam - Mock Assessment

medal

Included in Wizeprep Plus

Midterm Exam - Mock Assessment

This mock exam has 33 questions

You must answer all questions before submitting the quiz

Timer

Enabled

mins

Want a tour?