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This book is an invaluable resource for physics teachers. It contains an updated version of the author's A Guide to Introductory Physics Teaching (1990), Homework and Test Questions (1994), and a previously unpublished monograph "Introduction to Classical Conservation Laws."
This collection is confined to an extremely fundamental level of subject matter common to the great majority of introductory physics courses. Questions range from simple to fairly sophisticated, extending over a variety of modes that emerge as essential components in the learning and understanding of physics. These modes include forming and applying basic concepts, operational definition, verbalization, connection of abstractions to everyday experience, checking for internal consistency and interpreting results.
A basic, non-mathematical textbook for non-science students in secondary school or college. The book is based on Robert Karplus' many years of research on how beginners think about physics. In the "modeling approach" students explore and test simple analog, working and mathematical models for physical phenomena. The models provide a clear, understandable transition to the key principles and theories of physics. The book begins with the basic concepts of relative motion, reference frames, interaction, systems, and a descriptive overview of energy transfer. Subsequent chapters develop the details of temperature and heat, thermal (internal) energy, forces and work, electrical energy and electrical circuits, velocity and acceleration, Newton's Laws, motion near the surface of the earth, periodic and circular motion, celestial mechanics and gravity, pressure and kinetic theory, light and sound, waves, and modern physics (Bohr model and the basics of quantum mechanics). The "Modeling Instruction" approach is used in secondary schools throughout the US (see modeling.asu.edu). This book is especially useful in conjunction with (or as preparation for) the study of chemistry.
Written by one of the leaders of the Physics Education Research (PER) movement, Teaching Physics is a book for anyone interested in learning how to become a more effective physics teacher. Rather than reviewing specific topics in physics with hints for how to teach them and lists of common student difficulties, Teaching Physics presents a variety of tools for improving both the teaching and learning of physics--from new kinds of homework and exam problems, to surveys for figuring out what has happened in your class, to tools for taking and analyzing data using computers and video. Teaching Physics is a companion guide to using the Physics Suite, an integrated collection of research-based instructional materials for lecture, laboratory, recitation, and workshop/studio environments. But even if you don't use a single element from the Suite, Teaching Physics can help you enhance your students' learning experience.
This widely admired standalone guide is packed with creative tips on how to enhance and expand your physics class instruction techniques. It's an invaluable companion for novice and veteran professors teaching any physics course.
Despite efforts to attract a broader student population into physics, introductory physics courses remain a deterrent for many students. The motivation for this book is to make introductory physics more accessible and to increase interest in the subject by incorporating art-based teaching at the undergraduate level. By providing an alternate mental pathway to access physics, students can improve their understanding and deepen their personal connection with this often-impersonal subject. Additionally, by taking a visual approach to the study of physics, we can achieve a more inclusive way of teaching. This book focuses on the subject of waves and optics and is the second in a series of introductory physics topics. It is a collection of student-made artistic representations of physics concepts and accompanying student explanations of how the concept is explained more clearly through their art. Students were life-science majors enrolled in the introductory physics sequence at the University of California, Santa Cruz.
The Big Ideas in Physics and How to Teach Them provides all of the knowledge and skills you need to teach physics effectively at secondary level. Each chapter provides the historical narrative behind a Big Idea, explaining its significance, the key figures behind it, and its place in scientific history. Accompanied by detailed ready-to-use lesson plans and classroom activities, the book expertly fuses the ‘what to teach’ and the ‘how to teach it', creating an invaluable resource which contains not only a thorough explanation of physics, but also the applied pedagogy to ensure its effective translation to students in the classroom. Including a wide range of teaching strategies, archetypal assessment questions and model answers, the book tackles misconceptions and offers succinct and simple explanations of complex topics. Each of the five big ideas in physics are covered in detail: electricity forces energy particles the universe. Aimed at new and trainee physics teachers, particularly non-specialists, this book provides the knowledge and skills you need to teach physics successfully at secondary level, and will inject new life into your physics teaching.
Cutnell and Johnson has been the Number one text in the algebra-based physics market for over 20 years. Over 250,000 students have used the book as the equipment they need to build their problem-solving confidence, push their limits, and be successful. The tenth edition continues to offer material to help the development of conceptual understanding, and show the relevance of physics to readers lives and future careers. Helps the reader to first identify the physics concepts, then associate the appropriate mathematical equations, and finally to work out an algebraic solution
A guide to teaching introductory physics, from high school to calculus-based college courses, this instructional tool presents systematic observations based upon research into how physics students come to learn and understand physical concepts, models and lines of reasoning. Includes many examples of test questions and homework problems.