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"The activities and examples include many that have withstood the test of time for successful science instruction and that enable teachers to link science to the lives of students." —Elizabeth Hammerman, Science Educator and Consultant "A substantial contribution to the field of science education and an easy way for busy teachers to make science more meaningful, exciting, and connected for students. An important mix of both content and activities that teachers can use to meet individual needs." —Kerry Williams, Professor, Wayne State College Boost student interest and understanding in the physical sciences! Teaching physical science in the elementary and middle grades can be challenging for busy teachers faced with growing science demands and limited classroom resources. Robert Prigo provides fun and engaging activities using safe, available materials that educators can easily incorporate into lesson plans. Extensive examples, sample inquiry questions, and ideas for initiating units are readily available for teachers to pick and choose from to meet student needs. The result of more than two decades of professional development work with hundreds of teachers and administrators, Making Physics Fun addresses five specific areas of physical science: motion and force, fluids and buoyancy, waves and sound, light and electromagnetic waves, and electricity and magnetism. Dozens of activities demonstrating physics in action help students of all ages relate physics principles to their everyday experiences. Using easy-to-understand language, this practitioner-friendly resource helps teachers: Address the "big ideas" in K–8 science education Promote student understanding with ready-to-use learning experiences Use hands-on activities to help students make larger, real-world connections Assemble classroom learning centers to facilitate deeper understanding of basic physics principles With conceptual summaries to support teachers′ proficiency and understanding of the content, this guidebook is ideal for bringing physics to life for students in the classroom and in their lives!
Inquiry-guided learning (IGL) refers to an array of classroom practices that promote student learning through guided and, increasingly independent investigation of complex questions and problems. Rather than teaching the results of others’ investigations, which students learn passively, instructors assist students in mastering and learning through the process of active investigation itself. IGL develops critical thinking, independent inquiry, students’ responsibility for their own learning and intellectual growth and maturity.The 1999 Boyer Commission Report emphasized the importance of establishing "a firm grounding in inquiry-based learning and communication of information and ideas". While this approach capitalizes on one of the key strengths of research universities, the expertise of its faculty in research, it is one that can be fruitfully adopted throughout higher education.North Carolina State University is at the forefront of the development and implementation of IGL both at the course level and as part of a successful faculty-led process of reform of undergraduate education in a complex research institution.This book documents and explores NCSU’s IGL initiative from a variety of perspectives: how faculty arrived at their current understanding of inquiry-guided learning and how they have interpreted it at various levels -- the individual course, the major, the college, the university-wide program, and the undergraduate curriculum as a whole. The contributors show how IGL has been dovetailed with other complementary efforts and programs, and how they have assessed its impact. The book is divided into four parts, the first briefly summarizing the history of the initiative. Part Two, the largest section, describes how various instructors, departments, and colleges in a range of disciplines have interpreted inquiry-guided learning. It provides examples from disciplines as varied as ecology, engineering, foreign language learning, history, music, microbiology, physics and psychology. It also outlines the potential for even broader dissemination of inquiry-guided learning in the undergraduate curriculum as a whole. Part Three describes two inquiry-guided learning programs for first year students and the interesting ways in which NCSU’s university-wide writing and speaking program and growing service learning program support inquiry-guided learning. Part Four documents how the institution has supported instructors (and how they have supported themselves) as well as the methods used to assess the impact of inquiry-guided learning on students, faculty, and the institution as a whole.The book has been written with three audiences in mind: instructors who want to use inquiry-guided learning in their classrooms, faculty developers considering supporting comparable efforts on their campuses, and administrators interested in managing similar undergraduate reform efforts. It will also appeal to instructors of courses in the administration of higher education who are looking for relevant case studies of reform. While this is a model successfully implemented at a research university, it is one that is relevant for all institutions of higher education.
This easy-to-use guide features 75 research-based strategies for teachers of students in Grades K–12. Engage your students' creativity and build their science literacy.
Explore the laws and theories of physics in this accessible introduction to the forces that shape our universe, our planet, and our everyday lives. Using a bold, graphics-led approach, The Physics Book sets out more than 80 of the key concepts and discoveries that have defined the subject and influenced our technology since the beginning of time. With the focus firmly on unpacking the thought behind each theory—as well as exploring when and how each idea and breakthrough came about—five themed chapters examine the history and developments in specific areas such as Light, Sound, and Electricity. Eureka moments abound: from Archimedes' bathtub discoveries about displacement and density, and Galileo's experiments with spheres falling from the Tower of Pisa, to Isaac Newton's apple and his conclusions about gravity and the laws of motion. You'll also learn about Albert Einstein's revelations about relativity; how the accidental discovery of cosmic microwave background radiation confirmed the Big Bang theory; the search for the Higgs boson particle; and why most of the universe is missing. If you've ever wondered exactly how physicists formulated—and proved—their abstract concepts, The Physics Book is the book for you. Series Overview: Big Ideas Simply Explained series uses creative design and innovative graphics along with straightforward and engaging writing to make complex subjects easier to understand. With over 7 million copies worldwide sold to date, these award-winning books provide just the information needed for students, families, or anyone interested in concise, thought-provoking refreshers on a single subject.
This publication is aimed at students and teachers involved in programmes that train medical physicists for work in diagnostic radiology. It provides a comprehensive overview of the basic medical physics knowledge required in the form of a syllabus for the practice of modern diagnostic radiology. This makes it particularly useful for graduate students and residents in medical physics programmes. The material presented in the publication has been endorsed by the major international organizations and is the foundation for academic and clinical courses in both diagnostic radiology physics and in emerging areas such as imaging in radiotherapy.
Presents 101 experiments relating to physics using materials readily available around the house.
This reissued version of the classic text Basic Physics will help teachers at both the high-school and college levels gain new insights into, and deeper understanding of, many topics in both classical and modern physics that are commonly taught in introductory physics courses. All of the original book is included with new content added. Short sections of the previous book (174 in number) are labeled 'Features.' These Features are highlighted in the book, set forth in a separate Table of Contents, and separately indexed.Many teachers will value this book as a personal reference during a teaching year as various topics are addressed. Ford's discussions of the history and meaning of topics from Newton's mechanics to Feynman's diagrams, although written first in 1968, have beautifully withstood the test of time and are fully relevant to 21st-century physics teaching.