College Physics
2nd Edition
Published on 1. August 2018
Book
Hardback
1360 pages
978-1-319-18770-5 (ISBN)
Description
Freedman College Physics, Second Edition, is a student-centered text and homework program for introductory, algebra-based physics courses. With a focus on conceptual understanding and biological applications, College Physics makes the relevance of physics clear to students. The SaplingPlus system combines the heavily researched FlipIt Physics prelectures (derived from smartPhysics) with a robust homework system, in which every problem has targeted feedback, a hint, and a fully worked and explained solution.
This new integrated learning system brings together a ground-breaking media program with an innovative text presentation of algebra-based Physics. An experienced author team brings together a unique set of expertise and perspectives to help students master concepts and succeed in developing problem-solving skills necessary for College Physics.
This new integrated learning system brings together a ground-breaking media program with an innovative text presentation of algebra-based Physics. An experienced author team brings together a unique set of expertise and perspectives to help students master concepts and succeed in developing problem-solving skills necessary for College Physics.
More details
Edition
1st ed. 2018
Language
English
Place of publication
New York
United Kingdom
Publishing group
Macmillan Learning
Target group
College/higher education
Edition type
Revised edition
Illustrations
1360 p.
Dimensions
Height: 0 mm
Width: 0 mm
ISBN-13
978-1-319-18770-5 (9781319187705)
Schweitzer Classification
Persons
Dr. Roger A. Freedman is a Lecturer in Physics at the University of California, Santa Barbara. In recent years, he has helped to develop computer-based tools for learning introductory physics and astronomy and has been a pioneer in the use of classroom response systems and the "flipped" classroom model at UCSB.
Todd Ruskell focuses on teaching at the introductory level, and continually develops more effective ways to help students learn. One method used in large enrollment introductory courses is Studio Physics. This collaborative, hands-on environment helps students develop better intuition about, and conceptual models of, physical phenomena through an active learning approach.
Dr. Philip Kesten, Associate Professor of Physics and Associate Provost for Residential Learning Communities at Santa Clara University, holds a B.S. in physics from the Massachusetts Institute of Technology and received his Ph.D. in high energy particle physics from the University of Michigan.
Dr. David Tauck, Associate Professor of Biology, holds both a B.A. in biology and an M.A. in Spanish from Middlebury College. He earned his Ph.D. in physiology at Duke University and completed postdoctoral fellowships at Stanford University and Harvard University in anesthesia and neuroscience, respectively.
Todd Ruskell focuses on teaching at the introductory level, and continually develops more effective ways to help students learn. One method used in large enrollment introductory courses is Studio Physics. This collaborative, hands-on environment helps students develop better intuition about, and conceptual models of, physical phenomena through an active learning approach.
Dr. Philip Kesten, Associate Professor of Physics and Associate Provost for Residential Learning Communities at Santa Clara University, holds a B.S. in physics from the Massachusetts Institute of Technology and received his Ph.D. in high energy particle physics from the University of Michigan.
Dr. David Tauck, Associate Professor of Biology, holds both a B.A. in biology and an M.A. in Spanish from Middlebury College. He earned his Ph.D. in physiology at Duke University and completed postdoctoral fellowships at Stanford University and Harvard University in anesthesia and neuroscience, respectively.
Content
1. Introduction to Physics.- 2. Linear Motion.- 3. Motion in Two and Three Dimensions.- 4. Forces and Motion I: Newton's Laws.- 5. Forces and Motion II: Applications.- 6. Work and Energy.- 7. Momentum, Collisions, and Center of Mass.- 8. Rotational Motion.- 9. Elastic Properties of Matter: Stress and Strain.- 10. Gravitation.- 11. Fluids.- 12. Oscillations.- 13. Waves.- 14. Thermodynamics I.- 15. Thermodynamics II.- 16. Electrostatics I: Electric Charge, Forces, and Fields.- 17. Electrostatics II: Electric Potential Energy and Electric Potential.- 18. Electric Charges in Motion.- 19. Magnetism.- 20. Electromagnetic Induction.- 21. Alternating-Current Circuits.- 22. Electromagnetic Waves.- 23. Wave Properties of Light.- 24. Geometrical Optics.- 25. Relativity.- 26. Quantum Physics and Atomic Structure.- 27. Nuclear Physics.- 28. Particle Physics