Course code: 242502 | Subject title: ADVANCED PHYSICS | ||||
Credits: 3 | Type of subject: Mandatory | Year: 3 | Period: 1º S | ||
Department: Physics | |||||
Lecturers: | |||||
MADURGA PEREZ, VICENTE [Mentoring ] |
1. Magnetism of matter. Hysteresis loop and the saturation magnetization.
Origin of the magnetic moment and origin of magnetization of materials: exchange interaction, ferromagnetism, spontaneous magnetization. Magnetic anisotropy. Magnetic domains, magnetic domain walls. Magnetization processes: magnetization rotation, magnetic domain walls displacement, hysteresis loop and their parameters, saturation magnetization and its dependence with temperature: Ms(T).
2. Permanent magnets.
Characteristic parameters of a magnet: coercive field, remanence, product BrHc. Hard magnetic materials: high magnetic anisotropy, pinning of magnetic domain walls. Materials for permanent magnets: high magnetization, high magnetic anisotropy, high Curie temperature. Influence of shape of a magnet: magnetostatic energy.
3. Magnetomotive force (strength of magnetic tension)
Magnetic circuit: magnetomotive force, reluctance. Coupled magnetic circuits: series reluctances, parallel reluctances. Magnetic circuit for a magnet: demagnetizing field, magnetic field in the gap, magnetic energy in the gap. The product (BH)max
4. Electromagnetic waves.
Maxwell’s equation: deducing the electromagnetic wave, EMW, function. EMWs in dielectric media, EMWs in conductors. Properties of electric field and properties of magnetic field in EMWs. Radiation of EMW by an electric dipole: power of radiation and resistance to radiation.
5. Transmission of electromagnetic waves in a media: transmission lines, TEM mode propagation.
General properties of TEM Transmission lines: two conductors TEM transmission lines. Different type of two conductors TEM transmission lines: parallel plate lines, two-wire lines, coaxial lines.
CG1: Ability to write, sign and development of projects in the field of industrial engineering, aimed at the construction, alteration, repair, maintenance, demolition, manufacturing, assembly, installation or operation of:
structures, mechanical equipment, energy facilities, electrical and electronic installations and industrial plants and manufacturing processes and automation.
CG2: Ability to address the activities to engineering projects described in the previous section.
CG3: Knowledge in basic and technological disciplines, to enable them to learn new methods and theories, and equip them with the versatility to adapt to new situations.
CG4: Ability to solve problems with initiative, decision making, creativity, critical thinking and to communicate and transmit knowledge, skills and abilities in the field of Industrial Engineering.
Skills Basic Training Module.
CB2: Understand and master the basics of general laws
mechanics, thermodynamics, and electromagnetism, fields and waves, and their application to solving problems of engineering.
CB3: Possess basic knowledge of the use and programming of computers, operating systems, databases and software with applications in engineering.
When the learning process is finished the student is able to:
Methodology - Activity
|
Attendance (hours) |
Self study (hours)
|
A-1 Lectures
|
22
|
0
|
A-2 Laboratory
|
8 | |
A-3 Discussions and seminar
|
|
|
A-4 Laboratory work
|
0
|
10 |
A-5 Reading materials
|
|
5
|
A-6 Study time
|
|
30
|
A-7 Examination and test
|
|
|
|
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|
|
|
Total
|
30
|
45
|
Evaluation
|
Criteria
|
Instrument
|
Weight (%) |
Participation |
Class attendance
Laboratory Assistance |
Compulsory
|
|
Concepts of discipline and resolution application cases |
Understanding the fundamentals and application to practical cases |
Examination: 2 series of 4 issues (50%)
2 problems with 3 or 4 sections (50%) |
75 %
|
Laboratory practices | Understanding the basics of practice Understanding practice design Practical realization Analysis results |
Activity in the Laboratory Practice Report |
25 %
|
Access the bibliography that your professor has requested from the Library.
1. Introduction to magnetic materials. B.D. Cullity. Addison-Wesley Publishing Company, Inc. (Reading, MA 1972) ISBN: 0-201-01218-9
2. Introductionto Magnetism and Magnetic Materials. David Jiles. Chapman and Hall (London, UK 1998) ISBN: 0 412 79850 6
3. Modern Magnetic Materials. Robert C. O´Handley. John Wiley & Sons, Inc. (New York NY 2000) ISBN: 0-471-15566-7
4. Los Materiales Magnéticos en la Industria Eléctrica. P.R. Bardell. Urmo (Bilbao 1970)
5. Magnetism : Materials and Applications. Ed. by Étienne du Trémolet de Lacheisserie, Damien Gignoux, Michel Schlenker. KluwerAcademic Publishers, Springer Science+Business Media, Inc. (New York NY 2005) ISBN: 0-387-23000-9
6. Magnetism and Magnetic Materials. J.M.D. Coey. Cambridge University Press, (Cambridge, UK 2010) ISBN: 978-0-521-81614-4
1. Campos y Ondas Electromagnéticos P.Lorrain y D.R.Corson. Ed. Selecc. Científicas (Madrid 1986)
2. Campos Electromagnéticos R.K.Wangsness. Ed. Limusa (Méjico D.F. 1989)
3. Electricity and Magnetism Bleaney and Bleaney. 3ª Edición. Oxford University Press. (Oxford 1991)
4. Electromagnétisme 1, 2, 3 y 4 M.Bertin, J.P.Faroux et J.Renault. Ed. Dunod Université (Paris 1986)