HyperPhysics
... is an exploration environment for concepts in physics which employs concept maps and other linking strategies to facilitate smooth navigation (USA) [e]
Thin Films
Physics of Thin Films, Lecture Notes (D) [e]
Tunneling
Lecture Notes in Modern Physics (USA) [e]
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Topic:Physics
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Presents Richard P. Feynman's Lectures on Physics, known worldwide as the classic resource for students & professionals alike, ranging from the most basic principles of Newtonian physics through such formidable theories as Einstein's general relativity, superconductivity, & quantum mechanics. Addison Wesley Publishing Company 1970
This book is intended to provide a bridge from courses in general physics to the intermediate -level courses in classical mechanics, electrodynamics and quantum mechanics. It begins with a short review of some topics in physics that are then used throughout the book to provide the physical contexts for the mathematical methods that are developed: electrostatics, electric currents, magnetic flux, simple harmonic motion, and the rigid rotor. The next chapters treat vector algebra and vector calculus; the concept of magnetic flux serves to give physical meaning to the integral theorems. A short chapter on complex numbers provides the needed background for the remainder of the text. Ordinary differential equations arise in may physical contexts; the simple harmonic oscillator serves as the illustrative example. Examples from both classical and quantum physics illustrate the chapters on partial differential equations and eigenvalue problems: the quantum harmonic oscillator and a particle in a box, a conducting sphere in a uniform field and a vibrating drum head. The eigenvalue problem leads naturally to a discussion of orthogonal functions, which again use the quantum harmonic oscillator to provide the physical insight, and to matrices, where coupled oscillators and the principal axes of a rotating rigid body provide the physical context. The text concludes with a brief discussion of variational methods and the Euler-Lagrange equation. Problems at the end of each chapter give the student experience in applying mathematical methods to the solution of physical problems. Illustrative exercises throughout provide guidance. Many of the exercises call for graphical representations, and some are particularly amenable to the use of numerical methods. Springer-Verlag Telos 2002
