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Six Ideas That Shaped Physics: Unit E - Electromagnetic Fields
Six Ideas That Shaped Physics: Unit E - Electromagnetic Fields

Six Ideas That Shaped Physics: Unit E - Electromagnetic Fields

ISBN10: 1264874065 | ISBN13: 9781264874064
By Thomas Moore

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* The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.

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Six Ideas that Shaped Physics is comprised of six units, providing a unique approach to a two- or three-semester calculus-based introductory physics course. The text is designed to teach students to apply basic physical principles to realistic situations, and to resolve contradictions between their preconceived notions and the laws of physics. Through integrated practice, students learn to solve realistic problems, and organize the ideas of physics into an integrated hierarchy. 

The six units are:
Unit C: Conservation laws constrain interactions 
Unit N: The laws of physics are universal (Newtonian mechanics) 
Unit R: The laws of physics are frame-independent (Relativity) 
Unit E: Electricity and magnetism are unified 
Unit Q: Matter behaves like waves (Quantum physics) 
Unit T: Some processes are irreversible (Thermal physics)

Unit E
E1 Electric Fields
E2 Charge Distributions
E3 Electric Potential
E4 Static Equilibrium
E5 Current
E6 Dynamic Equilibrium
E7 Analyzing Circuits
E8 Magnetic Fields
E9 Currents and Magnetic Fields
E10 Magnets and Electromagnets
E11 The Electromagnetic Field
E12 Gauss's Law
E13 Ampere's Law
E14 Calculating Fields
E15 Integral Forms
E16 Dynamic Fields
E17 Maxwell Sees the Light
E18 Electromagnetic Wave Physics
E19 Faraday's Law
E20 Induction

About the Author

Thomas Moore

Thomas A. Moore graduated from Carleton College (magna cum laude with Distinction in Physics) in 1976. He won a Danforth Fellowship that year that supported his graduate education at Yale University, where he earned a Ph.D. in 1981. He taught at Carleton College and Luther College before taking his current position at Pomona College in 1987, where he won a Wig Award for Distinguished Teaching in 1991. He served as an active member of the steering committee for the national Introductory University Physics Project (IUPP) from 1987 through 1995. This textbook grew out of a model curriculum that he developed for that project in 1989, which was one of only four selected for further development and testing by IUPP.
He has published a number of articles about astrophysical sources of gravitational waves, detection of gravitational waves, and new approaches to teaching physics, as well as a book on general relativity entitled A General Relativity Workbook (University Science Books, 2013). He has also served as a reviewer and as an associate editor for American Journal of Physics. He currently lives in Claremont, California, with his wife Joyce, a retired pastor. When he is not teaching, doing research, or writing, he enjoys reading, hiking, calling contradances, and playing Irish traditional music.

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