Science teaching essentials : short guides to good practice /
Brame, Cynthia J.,
Science teaching essentials : short guides to good practice / Cynthia J. Brame. - 1 online resource (xx, 192 pages) : illustrations (some color)
Includes bibliographical references and index.
Front Cover; Science Teaching Essentials; Copyright Page; Praise for Science Teaching Essentials; Contents; Acknowledgments; Chapter Summaries; Section I: The Foundations; Chapter 1. Inclusive Teaching: Creating a Welcoming, Supportive Classroom Environment; Chapter 2. Course Design: Making Choices About Constructing Your Course; Chapter 3. Assignments and Exams: Tools to Promote Engagement, Learning, and Reflection; Section II: Keystone Teaching Practices; Chapter 4. Active Learning: The Student Work That Builds Understanding Chapter 5. Group Work: Using Cooperative Learning Groups EffectivelyChapter 6. Metacognitive Practices: Giving Students Tools to Be Selfdirected Learners; Chapter 7. Test-Enhanced Learning: Using Retrieval Practice to Help Students Learn. With Rachel E. Biel.; Section III: Pedagogy Toolbox; Chapter 8. Lecturing; Chapter 9. Flipping the Classroom; Chapter 10. Using Educational Videos; Chapter 11. Incorporating Research Into Courses. With Faith Rovenolt; Section IV: Fair and Transparent Grading Practices Chapter 12. Writing Exams: Good Practice for Writing Multiple Choice and Constructed Response Test QuestionsChapter 13. Rubrics: Tools to Make Grading More Fair and Efficient; Introduction; I. The Foundations; 1 Inclusive Teaching: Creating a Welcoming, Supportive Classroom Environment; What Is an Inclusive Classroom?; What Can Make a Learning Environment Chilly or Unsupportive?; How Does Creating a Supportive Environment Impact Learning?; How Do You Do It?; Conclusion; References; 2 Course Design: Making Choices About Constructing Your Course; What Are Principles to Guide Course Design? Consider the Big PictureLink the Big Picture to Practical Elements; Conclusion; References; Spotlight 1: Writing Learning Objectives Using Bloom's Taxonomy; Cognitive Processes: What Do You Want Your Students to Be Doing?; The Knowledge Domain: What Types of Knowledge Do We Want Our Students to Learn?; References; 3 Assignments and Exams: Tools to Promote Engagement, Learning, and Reflection; What Are the Principles to Guide Development of Assignments and Exams?; How Do You Do It?; Conclusion; References; Spotlight 2: Considerations for Syllabus Writing; References Spotlight 3: Making Our Courses Accessible: Universal Design for LearningReference; II. Keystone Teaching Practices; 4 Active Learning: The Student Work That Builds Understanding; What Is It? A Working Definition for Active Learning; What's the Theoretical Basis? Or, Why Should It Work?; Is There Evidence That It Works?; Why Is It Important? Making Your Class More Inclusive; What Are Techniques to Use?; Brief, Easy Supplements to Lecture; Activities to Replace Some Lecture; Other Approaches; How Should You Get Started?; Conclusion; References
Science Teaching Essentials: Short Guides to Good Practice serves as a reference manual for science faculty as they set up a new course, consider how to teach the course, figure out how to assess their students fairly and efficiently, and review and revise course materials. This book consists of a series of short chapters that instructors can use as resources to address common teaching problems and adopt evidence-based pedagogies. By providing individual chapters that can be used independently as needed, this book provides faculty with a just-in-time teaching resource they can use to draft a new syllabus. This is a must-have resource for science, health science and engineering faculty, as well as graduate students and post-docs preparing for future faculty careers.
9780128147030 0128147032
GBB935385 bnb
019254824 Uk
Science--Study and teaching (Higher)
Teaching--Methodology.
Q181 / .B7235 2019 Q181.5
507.11 507.1
Science teaching essentials : short guides to good practice / Cynthia J. Brame. - 1 online resource (xx, 192 pages) : illustrations (some color)
Includes bibliographical references and index.
Front Cover; Science Teaching Essentials; Copyright Page; Praise for Science Teaching Essentials; Contents; Acknowledgments; Chapter Summaries; Section I: The Foundations; Chapter 1. Inclusive Teaching: Creating a Welcoming, Supportive Classroom Environment; Chapter 2. Course Design: Making Choices About Constructing Your Course; Chapter 3. Assignments and Exams: Tools to Promote Engagement, Learning, and Reflection; Section II: Keystone Teaching Practices; Chapter 4. Active Learning: The Student Work That Builds Understanding Chapter 5. Group Work: Using Cooperative Learning Groups EffectivelyChapter 6. Metacognitive Practices: Giving Students Tools to Be Selfdirected Learners; Chapter 7. Test-Enhanced Learning: Using Retrieval Practice to Help Students Learn. With Rachel E. Biel.; Section III: Pedagogy Toolbox; Chapter 8. Lecturing; Chapter 9. Flipping the Classroom; Chapter 10. Using Educational Videos; Chapter 11. Incorporating Research Into Courses. With Faith Rovenolt; Section IV: Fair and Transparent Grading Practices Chapter 12. Writing Exams: Good Practice for Writing Multiple Choice and Constructed Response Test QuestionsChapter 13. Rubrics: Tools to Make Grading More Fair and Efficient; Introduction; I. The Foundations; 1 Inclusive Teaching: Creating a Welcoming, Supportive Classroom Environment; What Is an Inclusive Classroom?; What Can Make a Learning Environment Chilly or Unsupportive?; How Does Creating a Supportive Environment Impact Learning?; How Do You Do It?; Conclusion; References; 2 Course Design: Making Choices About Constructing Your Course; What Are Principles to Guide Course Design? Consider the Big PictureLink the Big Picture to Practical Elements; Conclusion; References; Spotlight 1: Writing Learning Objectives Using Bloom's Taxonomy; Cognitive Processes: What Do You Want Your Students to Be Doing?; The Knowledge Domain: What Types of Knowledge Do We Want Our Students to Learn?; References; 3 Assignments and Exams: Tools to Promote Engagement, Learning, and Reflection; What Are the Principles to Guide Development of Assignments and Exams?; How Do You Do It?; Conclusion; References; Spotlight 2: Considerations for Syllabus Writing; References Spotlight 3: Making Our Courses Accessible: Universal Design for LearningReference; II. Keystone Teaching Practices; 4 Active Learning: The Student Work That Builds Understanding; What Is It? A Working Definition for Active Learning; What's the Theoretical Basis? Or, Why Should It Work?; Is There Evidence That It Works?; Why Is It Important? Making Your Class More Inclusive; What Are Techniques to Use?; Brief, Easy Supplements to Lecture; Activities to Replace Some Lecture; Other Approaches; How Should You Get Started?; Conclusion; References
Science Teaching Essentials: Short Guides to Good Practice serves as a reference manual for science faculty as they set up a new course, consider how to teach the course, figure out how to assess their students fairly and efficiently, and review and revise course materials. This book consists of a series of short chapters that instructors can use as resources to address common teaching problems and adopt evidence-based pedagogies. By providing individual chapters that can be used independently as needed, this book provides faculty with a just-in-time teaching resource they can use to draft a new syllabus. This is a must-have resource for science, health science and engineering faculty, as well as graduate students and post-docs preparing for future faculty careers.
9780128147030 0128147032
GBB935385 bnb
019254824 Uk
Science--Study and teaching (Higher)
Teaching--Methodology.
Q181 / .B7235 2019 Q181.5
507.11 507.1