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Magnetic Properties of Solids
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Magnetic Properties of Solids

Sana Muhammad din
0(113 students)
Self-paced
All Levels

About this course

Magnetic Properties of Solids | From Fundamentals to Advanced ApplicationsMagnetism is a fundamental physical phenomenon that plays a vital role in everyday life and modern technology—from simple refrigerator magnets to advanced systems such as MRI scanners, electric motors, data storage devices, and Earth’s protective magnetic field. Understanding why only certain materials exhibit magnetic behavior is essential for students of physics, materials science, and engineering. This course offers a comprehensive and conceptually strong introduction to the magnetic properties of solids, focusing on both microscopic quantum origins and macroscopic material behavior.

Learners will develop a deep understanding of how materials respond to external magnetic fields and how these responses are classified in solid-state physics. The course begins with the fundamental quantities of magnetism, including magnetic field, magnetic flux, magnetic dipole moment, magnetic susceptibility, and magnetic permeability. Students then explore the origin of magnetism in solids, learning how electron motion, spin, and exchange interactions lead to different magnetic behaviors at the atomic level.

A major focus of the course is the classification of magnetic materials, covering:Diamagnetic materials and their weak repulsive behaviorParamagnetic materials, unpaired electrons, Curie’s Law, and temperature dependenceFerromagnetic materials, magnetic domains, hysteresis, Curie–Weiss law, and permanent magnetizationAntiferromagnetic materials, antiparallel spin alignment, and Néel temperatureFerrimagnetic materials, partial spin cancellation, hysteresis, and technological applicationsSuperparamagnetic materials, nanoscale magnetism, Néel relaxation, and absence of hysteresisStudents will gain a detailed understanding of magnetic domains, hysteresis loops, coercivity, retentivity, saturation magnetization, and hysteresis loss, along with practical strategies to reduce energy losses in electrical and magnetic devices. The course strongly connects theory with real-world applications, including transformers, electric motors, permanent magnets, MRI systems, data storage technologies, spintronics, magnetic sensors, nanotechnology, biomedical applications, and advanced materials used in modern engineering. By the end of this course, learners will have a strong conceptual and analytical foundation in magnetism, enabling them to confidently study advanced solid-state physics, materials science, nanotechnology, and applied magnetic systems.

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Level: All Levels

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Duration: Self-paced

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Instructor: Sana Muhammad din

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  • 📱Mobile & desktop access
  • 🎓Certificate of completion
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