Lesson Sequence
The sequence for the lessons is provided below. Please note that these are original lesson ideas that have been constructed by the publisher of this website. Nonetheless, the resources used within the lesson are from the McGrawhill textbook, Ontario educational resource bank, www.youtube.com, Ontario curriculum documents and other general websites.
The following lessons are divided into 2 main sections. The first section focuses on Oxidation-Reduction reactions followed by Cells and Batteries. Teaching Oxidation-Reducation reactions first instead of cell and batteries can allow students to grasp the underlying concepts which govern electrochemical technology used to produce and protect metals.
The sequence for the lessons is provided below. Please note that these are original lesson ideas that have been constructed by the publisher of this website. Nonetheless, the resources used within the lesson are from the McGrawhill textbook, Ontario educational resource bank, www.youtube.com, Ontario curriculum documents and other general websites.
The following lessons are divided into 2 main sections. The first section focuses on Oxidation-Reduction reactions followed by Cells and Batteries. Teaching Oxidation-Reducation reactions first instead of cell and batteries can allow students to grasp the underlying concepts which govern electrochemical technology used to produce and protect metals.
Additional Lesson Sequence Ideas
Many textbooks divide the electrochemistry unit into two main chapters (i.e. Nelson & McGrawhill-both the old and new editions). Both textbooks focus on Oxidation-Reduction reactions followed by Cells and Batteries. Below is a breakdown of the topics that are covered in Electrochemistry
A sample sequence for delivering the content is provided (The University of Toronto-OISE, 2014)
Many textbooks divide the electrochemistry unit into two main chapters (i.e. Nelson & McGrawhill-both the old and new editions). Both textbooks focus on Oxidation-Reduction reactions followed by Cells and Batteries. Below is a breakdown of the topics that are covered in Electrochemistry
A sample sequence for delivering the content is provided (The University of Toronto-OISE, 2014)
McGrawhillPart A: Redox Reactions
Lesson 1: Oxidation Reduction Reactions Lesson 2: Oxidation number Lesson 3: The Half-Reaction Method for Balancing Equations Lesson 4: The Oxidation Number Method for Balancing Equations Part B: Cell and Batteries Lesson 5: Galvanic Cells Lesson 6: Standard Cell Potentials Lesson 7: Electrolytic Cells Lesson 8: Faraday’s Law |
NelsonPart A: Oxidation and Reduction reactions
Lesson 1: Oxidation and Reduction Lesson 2: Balancing Redox Equations Lesson 3: Predicting Redox Reactions Lesson 4: Technology of Cells and Batteries Lesson 5: Galvanic Cells Lesson 6: Corrosion Part B: Cell and Batteries Lesson 7: Electrolysis Lesson 8: Science & Technology of Electrolysis Lesson 9: Stoichiometry of Cell Reactions |
OthersAdditional Lesson Sequence Ideas
Lesson 1: Redox reactions (Half reactions & balancing equations Lesson 3: Applying Oxidation Numbers to Redox Reactions Lesson 4: Writing balanced redox equations using Half- Reaction Method Lesson 5: Corrosion & its impact on society Lesson 6: Galvanic Cells Lesson 7: Measuring Cell Potential Lesson 8: Standard Potential Lesson 9: Electrolysis & Electrolytic Cells Lesson 11: Understanding Faraday’s Law Lesson 12: Faraday’s Law & electroplating |