Description
Book SynopsisMaster physics with Debora Katz's new, ground-breaking calculus-based physics program, PHYSICS FOR SCIENTISTS AND ENGINEERS: FOUNDATIONS AND CONNECTIONS. Dr. Katz's one-of-a-kind case study approach enables you to connect math and physics concepts in a modern, interactive way. By leveraging physics education research (PER) best practices and her extensive classroom experience, Debora Katz addresses the areas where students like you struggle the most: linking physics to the real world, overcoming common preconceptions, and connecting the concept being taught with the mathematical steps to follow. How Dr. Katz deals with these challengeswith case studies, student dialogues, and detailed two-column examplesdistinguishes this text from any other and will assist you in going beyond the quantitative to master your physics course.
Table of ContentsPART I: CLASSICAL MECHANICS. 1. Getting Started. 2. One-Dimensional Motion. 3. Vectors. 4. Two- and Three-Dimensional Motion. 5. Newton���s Laws of Motion. 6. Applications of Newton���s Laws of Motion. 7. Gravity. 8. Conservation of Energy. 9. Energy in Nonisolated Systems. 10. Systems of Particles and Conservation of Momentum. 11. Collisions. 12. Rotation I: Kinematics and Dynamics. 13. Rotation II: A Conservation Approach. PART II: MECHANICS OF COMPLEX SYSTEMS. 14. Static Equilibrium, Elasticity, and Fracture. 15. Fluids. 16. Oscillations. 17. Traveling Waves. 18. Superposition and Standing Waves. 19. Temperature, Thermal Expansion, and Gas Laws. 20. Kinetic Theory of Gases. 21. Heat and the First Law of Thermodynamics. 22. Entropy and the Second Law of Thermodynamics. PART III: ELECTRICITY. 23. Electric Forces. 24. Electric Fields. 25. Gauss���s Law. 26. Electric Potential. 27. Capacitors and Batteries. 28. Current and Resistance. 29. Direct Current (DC) Circuits. PART IV: MAGNETISM. 30. Magnetic Fields and Forces. 31. Gauss���s Law for Magnetism and Amp��re���s Law. 32. Faraday���s Law of Induction. 33. Inductors and AC Circuits. 34. Maxwell���s Equations and Electromagnetic Waves. PART V: LIGHT. 35. Diffraction and Interference. 36. Applications of the Wave Model. 37. Reflection and Images Formed by Reflection. 38. Refraction and Images Formed by Refraction. PART VI: 20TH CENTURY PHYSICS. 39. Relativity. 40. The Origin of Quantum Physics 41. Schr��dinger's Equation 42. Atoms 43. Nuclear and Particle Physics. Appendix A. Mathematics. Appendix B. Reference Tables. Periodic Table of the Elements. Answers to Concept Exercises and Odd-Numbered Problems. Index.
