Chemical pedagogy

Instructional approaches and teaching techniques in chemistry

Forthcoming

image of book cover
Chemical Pedagogy

Due: December 2024

A volume in the Royal Society of Chemistry's Advances in Chemistry Education books series.

Outline contents:

  • Section A: Perspectives on Teaching and Learning
    • Chapter 1: An Introduction to Chemical Pedagogy
      • Introduction
      • The Role of Laboratory Work
      • The Structure of the Book
      • The Rationale for the Structure
      • Not Just a Technical Approach to Teaching
      • Pedagogy?
      • The Curriculum and Educational Aims
      • Curricular Aims in Chemistry Education
    • Chapter 2: Evaluating Pedagogy Through Experimental Studies of Teaching
      • Introduction
      • The Challenges of Experimental Methods in TestingPedagogy
      • Units of Analysis
      • Why do Statistical Test Results Matter?
      • Sampling in Research
      • The 'Gold Standard': Random Control Trials
      • Limitations of Random Control Trials
      • Should we Abandon Experimental Research into Teaching?
      • Investigating Pedagogy in Different Contexts and with Complementary Approaches
      • Principles for Improving the Informativeness of Multiple Studies
      • Concluding Comment
    • Chapter 3: Debates About Pedagogy
      • Introduction
      • A Key Idea: Constructivism
      • Responding to Individual Needs: Personalisation and Differentiation
      • Active Learning
      • Independent Versus Cooperative Working
      • Should Teaching Groups be Heterogenous:
      • Debates About 'Mixed Ability' Teaching
      • Should We Teach for Different 'Learning Styles'?
      • The (Claimed) Superiority of Direct Instruction
    • Chapter 4: Optimally Guided Instruction
      • Introduction
      • Scaffolding Learning
      • Educative Experiences
      • A Community of Practice?
      • Flowing in the Zone
      • What Might Scaffolding Actually Look Like?
      • An Example of Scaffolding Science Learning
  • Section B: Teaching Strategies and Methodologies
    • Chapter 5: Introduction – Considering Levels of Structure in
      the Curriculum
      • Fine Structure
      • Developing Teaching Sequences
      • Three Stages in Selecting Subject Matter for a Curriculum
      • Considerations in Specifying a Curriculum
      • The Nature of Concepts
      • Devising a Logical Sequence for Introducing
        Concepts
      • Secondary Structure: The Spiral Curriculum
      • Tertiary Structure: Teaching as Drip-feed
      • Is There Quaternary Structure?
      • Conclusion: S5
    • Chapter 6: Matching Teaching to Learners
    • Chapter 7: Making the Unfamiliar Familiar: Presenting Subject Matter
      • Introduction
      • The Rationale
      • Catalysing Student Learning
      • Making the Chemistry Classroom Epistemologically Sophisticated
      • Bridging Analogies
      • Using Language to Draw Comparisons
      • Using Models
      • Representations in Chemistry
      • Using Drama Based Activities
      • Can I Tell You a Story?
      • Simulations, Virtual, and Augmented Reality
      • Multi-modal Teaching and Learning?
      • Making the Unfamiliar Familiar Relies on the Familiar
    • Chapter 8: Lectures and Laboratories: Their Discontents and Alternatives
      • Introduction
      • A Caricature of Traditional Teaching
      • Demonstrations
      • Prelabs
      • Challenging the Traditional Lecture
      • The Interactive Lecture
      • Blended Learning
      • Flipped Learning
      • Conclusion: Should all Lectures be Flipped?
    • Chapter 9: Engaging Different Voices in the Chemistry Classroom
    • Chapter 10: Designing and Curating Learning Resources
      • Introduction
      • Resources to Support Scaffolding?
      • Scaffolding: Building a Bridge Between Exercises and Problems
      • Gamifying Drill-and-practice
      • Exercises to Support Scaffolding
      • Some Examples of How Structured Sequences of Exercises Might Work
      • Exemplification Tasks
      • Sorting Tasks
      • DARTs (Directed Activities Related to Text)
      • Textbooks
      • Concept Mapping
      • Curating Learning Resources
      • Teacher or Learning Facilitator
      • Postscript – What is Science?
    • Chapter 11: Strategies for Organising Chemistry Teaching
      • Introduction to Chapter 11
      • Context-based Learning
      • Enquiry-based Science Education
      • Case-based Learning
      • Using Historical Materials in Teaching
      • Problem-based Learning
      • Project-based Learning
      • Final Thoughts
    • Chapter 12: Learners Choosing and Creating
    • Introduction
      • Learner Autonomy
      • Learner Choice
      • Students Creating
      • More Research is Needed. . .
      • Final Thoughts: Building up a Library to Support Research-informed Chemistry Teaching

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