This lecture note explains
the following topics: Electric Charge and Force, Electric Field and Simple
Distributions of Charge, Complex Distributions of Electric Charge, The Motion of
Electric Charge, Potential and the Storage of Energy, Capacitors, Electric
Current, Resistance to Electric Current, Magnetic Force, Magnetic Force between
Currents, Magnetic Dipole Moment, Magnetic Induction, Reflection and
This note gives an
introduction on quantum mechanical view on magnetism in real materials,
especially, consisting of transition metal elements and their compounds, and the
physical principles for the applications of magnetic materials as magnetic
sensors and memory devices.
The goal of these guides is to
give students an appreciation of the major role magnetism plays on Earth and in
space, and ultimately enable them to use NASA data as “scientists” researching
our magnetic connection to the Sun. Topics covered includes: Permanent Bar
Magnets, Electromagnets, Jump Rope Generator, Induction in an Aluminum Can,
Geomagnetism, Space Weather Effects, The THEMIS Mission, Magnetism and
Measurement Techniques, The Fluxgate Magnetometer and The THEMIS Magnetometer.
first part of this book will examine alternative powered circuits, circuits
which display diverse combinations of resistance, inductance and capacity.The
second part will examine the momentum of charged particles in both electric and
In this book, the author give an account of some recent electrical
researches, experimental as well as theoretical, in the hope that it may assist
students to gain some acquaintance with the recent progress of Electricity and
yet retain Maxwell's Treatise as the source from which they learn the great
principles of the science.
This note covers the following topics: electric
fields, electric potential, capacitors, circuits, magnetic fields and forces,
creating magnetic fields, Faraday's law, oscillating circuits, Maxwell's
equations, electromagnetic waves and nature of light.
Author(s): Prof. Walter Lewin, Prof. John Belcher
and Dr. Peter Dourmashkin
note covers the following topics: Electric
charge, Electric fields, Dipoles, Continuous charge distributions, Coordinate
systems, Gradients, Line and surface integrals, electric
potential, E from V, equipotentials, Gauss's law, Conductors and capacitors,
Magnetic fields: Creating magnetic fields - Biot-Savart, Ampere's Law, Inductors
and magnetic energy, RL circuits, RC and RL circuits, LC and undriven LRC
circuits, Driven LRC circuits, Maxwell's equations, EM radiation and energy
flow, EM radiation.