Useful Links
Other Applied Science Fields
Materials Science
Structure and Properties of Materials
1. Introduction to Materials Science and Engineering
2. Atomic Structure and Interatomic Bonding
3. The Structure of Crystalline Solids
4. Imperfections in Solids
5. Diffusion
6. Mechanical Properties of Metals
7. Dislocations and Strengthening Mechanisms
8. Failure
9. Phase Diagrams
10. Phase Transformations
11. Thermal Properties
12. Electrical Properties
13. Magnetic Properties
14. Optical Properties
15. Structure and Properties of Ceramics
16. Structure and Properties of Polymers
17. Composites
Magnetic Properties
Basic Concepts
Magnetic Dipoles and Magnetic Moments
Magnetic Field and Magnetization
Magnetic Susceptibility
Permeability
Magnetic Induction
Types of Magnetism
Diamagnetism
Origin and Characteristics
Diamagnetic Materials
Lenz's Law
Paramagnetism
Origin and Characteristics
Paramagnetic Materials
Curie's Law
Ferromagnetism
Origin and Characteristics
Exchange Interaction
Spontaneous Magnetization
Domain Structure
Magnetic Domains
Domain Walls
Domain Wall Motion
Hysteresis
Hysteresis Loop
Coercivity
Remanence
Saturation Magnetization
Antiferromagnetism
Magnetic Ordering
Néel Temperature
Examples and Applications
Ferrimagnetism
Unequal Antiparallel Moments
Ferrites
Temperature Effects on Magnetic Behavior
Curie Temperature
Curie-Weiss Law
Néel Temperature
Temperature Dependence of Magnetization
Magnetic Domains
Domain Formation
Domain Wall Structure
Magnetization Process
Single Domain Particles
Magnetic Materials
Soft Magnetic Materials
Low Coercivity
High Permeability
Hard Magnetic Materials
High Coercivity
Permanent Magnets
Energy Product
Magnetic Storage Materials
Recording Media
Magnetic Memory
Applications of Magnetic Materials
Transformers
Motors and Generators
Magnetic Storage
Magnetic Sensors
Previous
12. Electrical Properties
Go to top
Next
14. Optical Properties