Rethink traditional teaching methods to improve student learning and retention in STEM



Educational research has repeatedly shown that compared to traditional teacher-centered instruction, certain learner-centered methods lead to improved learning outcomes, greater development of critical high-level skills, and increased retention in science, technology, engineering, and mathematics (STEM) disciplines.

Teaching and Learning STEM presents a trove of practical research-based strategies for designing and teaching STEM courses at the university, community college, and high school levels. The book draws on the authors' extensive backgrounds and decades of experience in STEM education and faculty development. Its engaging and well-illustrated descriptions will equip you to implement the strategies in your courses and to deal effectively with problems (including student resistance) that might occur in the implementation. The book will help you:

* Plan and conduct class sessions in which students are actively engaged, no matter how large the class is

* Make good use of technology in face-to-face, online, and hybrid courses and flipped classrooms

* Assess how well students are acquiring the knowledge, skills, and conceptual understanding the course is designed to teach

* Help students develop expert problem-solving skills and skills in communication, creative thinking, critical thinking, high-performance teamwork, and self-directed learning

* Meet the learning needs of STEM students with a broad diversity of attributes and backgrounds

The strategies presented in Teaching and Learning STEM don't require revolutionary time-intensive changes in your teaching, but rather a gradual integration of traditional and new methods. The result will be continual improvement in your teaching and your students' learning.

More information about Teaching and Learning STEM can be found at

http://educationdesignsinc.com/book

including its preface, foreword, table of contents, first chapter, a reading guide, and reviews in 10 prominent STEM education journals.

RICHARD M. FELDER, PHD, is Hoechst Celanese Professor Emeritus of Chemical Engineering at North Carolina State University and author of the bestselling Wiley textbook Elementary Principles of Chemical Processes, now in its fourth edition. He is the inaugural recipient of the Lifetime Achievement Award in Engineering Education, presented in 2012 by the American Society for Engineering Education.

REBECCA BRENT, EdD, is President of Education Designs, Inc., a consulting firm in North Carolina, and is a certified educational program evaluator. Prior to her work in consulting, she was an associate professor of education at East Carolina University.

Separately and together, Drs. Felder and Brent have published over 300 papers and presented over 700 workshops and seminars on STEM education on campuses around the world.

Klappentext

Praise for TEACHING AND LEARNING STEM

"Felder and Brent, longtime leaders in STEM education research, fill an important gap by providing both insightful and very practical guidance for the college instructor trying to translate the findings of STEM research into effective classroom practice."
—Carl Wieman, Nobel Laureate in Physics, Department of Physics and Graduate School of Education, Stanford University

"In their research-based, direct, and exceptionally readable style, Felder and Brent provide one of the few—and the best—practical guides to teaching in the disciplines of science, technology, engineering and mathematics. From designing a course to teaching students to assessing for learning, busy faculty members will find countless, creative, and straightforward strategies for creating a more learner-centered, evidence-based teaching environment."
—Mary Deane Sorcinelli, research professor and founding director, Center for Teaching & Faculty Development, University of Massachusetts Amherst

"Felder and Brent break down the last few decades of advances in STEM education into coherent, useful, and well-organized advice, creating down-to-earth lessons that keep the needs and interests of the STEM educator front and center."
—Brian P. Coppola, Arthur F. Thurnau Professor of Chemistry and associate chair for Educational Development & Practice, University of Michigan

"While designed for university faculty, Teaching and Learning STEM serves equally well for high school teachers of STEM courses, particularly those of us working with advanced level students. The chapters on active learning, effective use of technology, and developing problem solving and creative thinking skills should be studied by teachers of all subjects working with students of any age."
—Daniel J. Teague, instructor of mathematics, North Carolina School of Science and Mathematics

"Richard Felder and Rebecca Brent have created a treasure chest of wisdom and practical strategies for improving learning. It is organized in a way to be accessible to first-time and veteran educators alike, and I have already started applying their ideas in my classroom!"
—Sheri Sheppard, mechanical engineering professor and director of the Designing Education Lab, Stanford University

"Imagine a book that is like having a welcoming and seasoned faculty colleague just down the hall, ready with engaging stories and sage advice. That is this book."
—Kimberly D. Tanner, professor, department of biology, and director, The Science Education Partnership and Assessment Laboratory, San Francisco State University

Inhalt

The Authors iii

Tables, Figures, and Exhibits xi

Foreword xv

Preface xvii

1 Introduction to college teaching 1

1.0 Welcome to the university, there's your office, good luck 1

1.1 Making learning happen 2

1.2 Learner-centered teaching: Definition, warning, and reassurance 5

1.3 What's in this book? 7

1.4 How to use the book 9

PART ONE Designing courses

Interlude. What do they need to know? 13

2 Learning objectives: A foundation of effective teaching 17

2.0 Introduction 17

2.1 Writing and using course learning objectives 19

2.2 Bloom's taxonomy of educational objectives 30

2.3 Addressing course prerequisites and program outcomes 34

2.4 Ideas to take away 36

2.5 Try this in your course 37

Interlude. Good cop/bad cop: Embracing contraries in teaching 39

3 Planning courses 41

3.0 Introduction 41

3.1 Three steps to disaster, or, how not to approach course preparation 42

3.2 A rational approach to course preparation and redesign 43

3.3 Choosing a course text or content delivery system 47

3.4 Formulating a course grading policy 47

3.5 Writing a syllabus 51

3.6 The critical first week 52

3.7 Ideas to take away 63

3.8 Try this in your course 63

Interlude. How to write class session plans (or anything else) 65

4 Planning class sessions 67

4.0 Introduction 67

4.1 Avoid common planning errors 69

4.2 What's in a class session plan? 69

4.3 Promote long-term memory storage, retrieval, and transfer 70

4.4 Two cornerstones of effective class sessions 74

4.5 Plan good questions and activities 76

4.6 Don't turn classes into slide shows and verbal avalanches 78

4.7 Use handouts with gaps 81

4.8 Planning undergraduate laboratory courses 84

4.9 Ideas to take away 86

4.10 Try this in your course 87

PART TWO Teaching courses

5 Elements of effective instruction 91

5.0 Int…