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Author: Arnold B. Arons Publisher: John Wiley & Sons ISBN: Category : Science Languages : en Pages : 812
Book Description
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of the author's A Guide to Introductory Physics Teaching (1990), Homework and Test Questions (1994), and a previously unpublished monograph "Introduction to Classical Conservation Laws."
Author: Arnold B. Arons Publisher: John Wiley & Sons ISBN: Category : Science Languages : en Pages : 812
Book Description
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of the author's A Guide to Introductory Physics Teaching (1990), Homework and Test Questions (1994), and a previously unpublished monograph "Introduction to Classical Conservation Laws."
Author: Edward F. Redish Publisher: John Wiley & Sons ISBN: Category : Education Languages : en Pages : 232
Book Description
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.
Author: Arnold B. Arons Publisher: John Wiley & Sons ISBN: Category : Science Languages : en Pages : 296
Book Description
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.
Author: Robert Karplus Publisher: Fernand Brunschwig ISBN: 9780982725801 Category : Education Languages : en Pages : 540
Book Description
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.
Author: Arnold B. Arons Publisher: ISBN: Category : Science Languages : en Pages : 360
Book Description
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.
Author: Stephanie L. Bailey Publisher: Stephanie L. Bailey ISBN: 1034232592 Category : Science Languages : en Pages : 94
Book Description
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.
Author: Clifford E. Swartz Publisher: American Institute of Physics ISBN: 9781563963209 Category : Science Languages : en Pages : 558
Book Description
Introductory physics attracts a wide variety of students, with different backgrounds, levels of preparedness, and academic destinations. To many, the course is one of the most daunting in the science curriclum, full of arcane principles that are difficult to grasp. To others, it is one of the most highly anticipated -the first step on the path to the upper reaches of scientific inquiry. In their years as instructors and as editors of The Physics Teacher, Clifford E. Swartz and the late Thomas Miner developed and encountered many innovative and effective ways of introducing students to the fundamental principles of physics. Teaching Introductory Physics brings these strategies, insights and techniques to you in a unique, convenient volume. This is a reference and a tutorial book for teachers of an introductory physics course at any level. It has review articles on most of the topics of introductory physics, providing background information and suggestions about presentation and relative importance. Whether you are teaching physics for the first time or are an experienced instructor, Teaching Introductory Physics will prove to be an exceptionally helpful classroom companion. The book should be particularly useful for graduate students teaching for the first time and for research physicists who have not taught the introductory course recently. Teaching Introductory Physics gives you access to the cumulative expertise of the world's most dedicated physics instructors-not just Professor Swartz and Miner, but many of the contributors and subscribers to the Physics Teacher. it is sure to enhance your teaching skills, helping you to give your students the basic knowledge
Author: Mark J. Lattery Publisher: IAP ISBN: 1681236303 Category : Education Languages : en Pages : 277
Book Description
Deep Learning in Introductory Physics: Exploratory Studies of Model?Based Reasoning is concerned with the broad question of how students learn physics in a model?centered classroom. The diverse, creative, and sometimes unexpected ways students construct models, and deal with intellectual conflict, provide valuable insights into student learning and cast a new vision for physics teaching. This book is the first publication in several years to thoroughly address the “coherence versus fragmentation” debate in science education, and the first to advance and explore the hypothesis that deep science learning is regressive and revolutionary. Deep Learning in Introductory Physics also contributes to a growing literature on the use of history and philosophy of science to confront difficult theoretical and practical issues in science teaching, and addresses current international concern over the state of science education and appropriate standards for science teaching and learning. The book is divided into three parts. Part I introduces the framework, agenda, and educational context of the book. An initial study of student modeling raises a number of questions about the nature and goals of physics education. Part II presents the results of four exploratory case studies. These studies reproduce the results of Part I with a more diverse sample of students; under new conditions (a public debate, peer discussions, and group interviews); and with new research prompts (model?building software, bridging tasks, and elicitation strategies). Part III significantly advances the emergent themes of Parts I and II through historical analysis and a review of physics education research. ENDORSEMENTS: "In Deep Learning in Introductory Physics, Lattery describes his extremely innovative course in which students' ideas about motion are elicited, evaluated with peers, and revised through experiment and discussion. The reader can see the students' deep engagement in constructive scientific modeling, while students deal with counter-intuitive ideas about motion that challenged Galileo in many of the same ways. Lattery captures students engaging in scientific thinking skills, and building difficult conceptual understandings at the same time. This is the 'double outcome' that many science educators have been searching for. The case studies provide inspiring examples of innovative course design, student sensemaking and reasoning, and deep conceptual change." ~ John Clement, University of Massachusetts—Amherst, Scientific Reasoning Research Institute "Deep Learning in Introductory Physics is an extraordinary book and an important intellectual achievement in many senses. It offers new perspectives on science education that will be of interest to practitioners, to education researchers, as well as to philosophers and historians of science. Lattery combines insights into model-based thinking with instructive examples from the history of science, such as Galileo’s struggles with understanding accelerated motion, to introduce new ways of teaching science. The book is based on first-hand experiences with innovative teaching methods, reporting student’s ideas and discussions about motion as an illustration of how modeling and model-building can help understanding science. Its lively descriptions of these experiences and its concise presentations of insights backed by a rich literature on education, cognitive science, and the history and philosophy of science make it a great read for everybody interested in how models shape thinking processes." ~ Dr. Jürgen Renn, Director, Max Planck Institute for the History of Science
Author: Magdalena Kersting Publisher: Routledge ISBN: 1000374130 Category : Education Languages : en Pages : 499
Book Description
In our world today, scientists and technologists speak one language of reality. Everyone else, whether they be prime ministers, lawyers, or primary school teachers speak an outdated Newtonian language of reality. While Newton saw time and space as rigid and absolute, Einstein showed that time is relative – it depends on height and velocity – and that space can stretch and distort. The modern Einsteinian perspective represents a significant paradigm shift compared with the Newtonian paradigm that underpins most of the school education today. Research has shown that young learners quickly access and accept Einsteinian concepts and the modern language of reality. Students enjoy learning about curved space, photons, gravitational waves, and time dilation; often, they ask for more! A consistent education within the Einsteinian paradigm requires rethinking of science education across the entire school curriculum, and this is now attracting attention around the world. This book brings together a coherent set of chapters written by leading experts in the field of Einsteinian physics education. The book begins by exploring the fundamental concepts of space, time, light, and gravity and how teachers can introduce these topics at an early age. A radical change in the curriculum requires new learning instruments and innovative instructional approaches. Throughout the book, the authors emphasise and discuss evidence-based approaches to Einsteinian concepts, including computer- based tools, geometrical methods, models and analogies, and simplified mathematical treatments. Teaching Einsteinian Physics in Schools is designed as a resource for teacher education students, primary and secondary science teachers, and for anyone interested in a scientifically accurate description of physical reality at a level appropriate for school education.
Author: Arnold B. Arons
Author: Arnold B. Arons
Author: Edward F. Redish
Author: Arnold B. Arons
Author: Robert Karplus
Author: Arnold B. Arons
Author: Stephanie L. Bailey
Author: Clifford E. Swartz
Author: Mark J. Lattery
Author: University of Washington. Physics Education Group
Author: Magdalena Kersting