Electricity and magnetism

Electricity and magnetism

The final volume in a three-part series, Electricity and Magnetism provides a detailed exposition of classical electric and magnetic fields and analyses of linear electric circuits. The book applies the principles of classical mechanics to systematically reveal the laws governing observed electric a...

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Detalles Bibliográficos
Otros Autores: Kelly, P. F., 1961- author (author)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Boca Raton, FL : CRC Press, an imprint of Taylor and Francis 2014.
Edición:First edition
Materias:
Electricity.
Magnetism.
Electric power.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009755213306719
Tabla de Contenidos:
  • Front Cover; Contents; List of Examples; Preface; Preface for Volume III; Part I: Electricity and Magnetism; Chapter 1: Electric Charge, Coulomb's Law, Electric Field; Chapter 2: Electric Dipole, Motion of Charged Particles; Chapter 3: Continuous Charge Distributions; Chapter 4: Above a Uniformly Charged Rectangular Plate; Chapter 5: Electric Flux and Gauss's Law; Chapter 6: More Gauss's Law; Chapter 7: Electrostatic Implications and Potential Energy; Chapter 8: Potentially Fun!; Chapter 9: Electrostatic Potential Energy; Chapter 10: Rife with Potential
  • Chapter 11: Potentials, Fields, and All ThatChapter 12: Capacitance; Chapter 13: Capacitors in Series and Parallel; Chapter 14: Energetics of Capacitance; Chapter 15: Dielectrics; Chapter 16: Energetics of Dipoles; Chapter 17: Electric Current; Chapter 18: Electric Current Density, Ohm's Law, and Resistance; Chapter 19: Resistance Is Not Futile; Chapter 20: Resistors in Series and Parallel; Chapter 21: DC Circuits M ́elange; Chapter 22: Timely Applications of Kirchoff's Rules; Chapter 23: More RC Circuits and Segue to Magnetism; Chapter 24: The Lorentz Force
  • Chapter 25: Current, Lorentz Force, and TorqueChapter 26: Magnetic Torque on Current Loops; Chapter 27: Back to Moving Charged Particles; Chapter 28: The Hall Effect; Chapter 29: M-M-More Magnetic Sources; Chapter 30: Interacting Wires and Amp`ere's Law; Chapter 31: Amp`ere and Solenoids; Chapter 32: The General Form of Amp`ere's Law; Chapter 33: Gauss's Law for Magnetism; Chapter 34: Magnetism in Matter; Chapter 35: Faraday's Law; Chapter 36: Motional EMF; Chapter 37: Inductance; Chapter 38: RL Circuits; Chapter 39: Mutual Inductance; Chapter 40: LC Circuits; Chapter 41: RCL Circuits
  • Chapter 42: AC CircuitsChapter 43: Inductive and Capacitive AC Circuits; Chapter 44: RCL AC Circuits; Chapter 45: Power Dissipation in RCL AC Circuits; Chapter 46: The Pinnacle: Maxwell's Equations; Chapter 47: Analysis of Maxwell's Equations in Vacuum; Chapter 48: Wavelike Solutions of Maxwell's Vacuum Equations; Chapter 49: The Poynting Vector; Chapter 50: Electromagnetic Waves Carry Momentum, Too; Epilogue; Part II: Electricity and Magnetism Problems; E: Electric Field and Potential Problems; C: Capacitance Problems; R: DC Circuits Problems; L: Lorentz (Magnetic) Force Problems
  • B: Magnetic Field Production ProblemsI: Faraday-Induction Problems; S: AC Circuits Problems; M: Maxwell's Equations Problems; List of Symbols; Back Cover

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