Introduction to Magnetism and Magnetic Materials, Second Edition
CRC Press, 16 Haz 1998 - 568 sayfa
Few subjects in science are more difficult to understand than magnetism, according to Encyclopedia Britannica. However, there is a strong demand today for scientists and engineers with skills in magnetism because of the growing number of technological applications utilizing this phenomenon. This textbook responds to the need for a comprehensive introduction of the basic concepts of the science.
Introduction to Magnetism and Magnetic Materials has been thoroughly revised since the first edition to include recent developments in the field. The early chapters comprise a discussion of the fundamentals of magnetism. These chapters include more than 60 sample problems with complete solutions to reinforce learning. The later chapters review the most significant recent developments in four important areas of magnetism: hard and soft magnetic materials, magnetic recording, and magnetic evaluation of materials. These later chapters also provide a survey of the most important areas of magnetic materials for practical applications. Extensive references to the principal publications in magnetism are listed at the end of each chapter, which offer the reader rapid access to more specialized literature.
Students in various scientific areas will benefit from this book, including those in physics, materials science, metallurgy, and electrical engineering.
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Magnetization and magnetic moment
Quantum theory of magnetism
Soft magnetic materials
Hard magnetic materials
Magnetic evaluation of materials
The magnetic field as a relativistic correction to the electric
Diğer baskılar - Tümünü görüntüle
aligned alloys ampere angle anhysteretic anisotropy antiferromagnetic antiparallel applications applied field Barkhausen effect Bohr magnetons calculations change in magnetization cobalt coercivity coil component conductor constant core coupling Curie point Curie temperature current loop demagnetizing dependent determined diamagnets disk domain walls electrical electromagnet electron spins equation exchange energy exchange interaction Exercise factor ferrites ferromagnetic ferromagnetic materials field direction field H field strength flux density force free space frequency given hysteresis loop IEEE Trans iron Langevin leakage field magnetic field magnetic flux magnetic induction magnetic moments magnetic properties magnetic recording magnetization curve magnetometer magnetoresistance magnetostriction measured mechanical metals meter method neutron nickel orbital angular momentum paramagnetic particles permanent magnet permanent magnet materials permeability Phys plane pole quantum number remanence result rotation saturation magnetization shown in Fig silicon-iron single-domain soft magnetic materials solenoid solid specimen spontaneous magnetization stress surface tape techniques terfenol theory torque typically values vector wave function Weiss zero