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Electric Dipoles and Materials
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Related lectures (30)
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Maxwell's Equations and Induction Phenomenon
Explores Maxwell's equations, induction in moving conductors, electromotive force, and electrical fields.
Magnetic Fields and Forces
Explores magnetic fields, forces, Ampère's Law, and ferromagnetism, including the magnetic properties of materials and problem-solving examples.
Magnetic Materials: Elements, Fields, and Interactions
Explores the magnetic periodic table, ferromagnets, antiferromagnets, magnetic fields, and Maxwell's equations in polarizable matter.
Ferromagnetism: Magnetic Properties
Explores the magnetic properties of ferromagnetic materials, including retention of magnetization and hysteresis cycles.
Magnetic Fields and Currents
Explores magnetic fields, currents, Biot-Savart law, Ampère's law, and magnetic dipoles.
Lorentz Transmission Electron Microscopy: Theory and Practice
Covers Lorentz Transmission Electron Microscopy theory, imaging modes, and quantitative analysis.
Magnetic Recording Technology
Explores the evolution of magnetic recording technology, from historical origins to modern advancements in magnetic media and information storage.
Magnetic Field Sources
Explores magnetic field sources, induction, and practical applications in various fields.
Magnetic Recording Technologies: Stability, HAMR, Read Head
Covers stability criteria, magnetic properties, HAMR, read/write head, and spintronics.
Magneto-optical Kerr Effect: Fundamentals and Applications
Covers the fundamentals of the Magneto-optical Kerr Effect (MOKE) and its applications in ultrafast magnetization processes and magnetic optical spectroscopy.
