| CODE | 57195 |
|---|---|
| ACADEMIC YEAR | 2019/2020 |
| CREDITS | 6 credits during the 2nd year of 8765 Material Science (L-30) GENOVA |
| SCIENTIFIC DISCIPLINARY SECTOR | FIS/01 |
| LANGUAGE | Italian |
| TEACHING LOCATION | GENOVA (Material Science) |
| SEMESTER | 2° Semester |
| MODULES | This unit is a module of: |
| TEACHING MATERIALS | AULAWEB |
At the end of the second module, the student will be able to i) understand the mechanisms underlying the dielectric behavior of the materials; ii) understand the origin of paramagnetism and diamagnetism in materials; iii) know the main properties of ferromagnetic materials; iv) know the properties of electromagnetic waves in vacuum and in transparent materials; v) to describe the behavior of an electromagnetic wave at the interface between two materials.
Traditional lectures; exercises solved by the lecturer with the student participation; laboratory experiments performed by the students in the presence of the teacher, with experiment tracks provided in advance.
Classroom hours: 55
Hours employed in laboratory experiments or other activities: 4
Electrical field in insulators
Dielectric materials and constant dielectric. Potential and field generated by an electric dipole. Electric dipole approximation and field generated by a system of charges. Dielectric properties of insulators; Polarizability for orientation and deformation. Vector polarization and dielectric constant. Electrostatic equations in the presence of dielectrics: electric shift vector. Boundary conditions in the presence of dielectrics. The Clausius–Mossotti relation. Brief remarks on ferroelectric compounds.
Magnetism in materials
Magnetic moment and microscopic currents. Diamagnetism and paramagnetism. Magnetization, Curie Law. Magnetic material: magnetization current and magnetic field in matter. General equations of magnetostatics in the presence of magnetized materials. Boundary conditions in the presence of magnetic materials. Ferromagnetic materials; Magnetic circuits and Hopkinson's law. Hysteresis loop of a iron. Soft and hard magnetic materials: main applications.
Electric oscillations. Alternating current
AC current. RLC series circuit. Transformer
Electromagnetic waves
EM wave energy, wave intensity and Pointing vector. Electromagnetic radiation generated by an oscillating dipole and spherical wave. EM wave polarization. Maxwell equations in transparent media and refractive index. dSnell's Law: Reflection and Refraction of the Light. The intensity of reflexed and refracted waves (Fresnel's laws). Absorbing materials: absorption coefficient and complex refractive index.
Laboratory Experiment:
Measurement of the magnetic field inside a coil and in the presence of an iron core
D. Halliday, R. Resnick, J. Walker - Fundamentals of Physics, 10th edition, vol.2 - Wiley
Slides of lessons uploaded in Aulaweb
Office hours: all days iupon e-mail arrangement
ANNALISA RELINI (President)
MARINA PUTTI
LUCA VATTUONE
Traditional lectures; exercises solved by the lecturer with the student participation; laboratory experiments performed by the students in the presence of the teacher, with experiment tracks provided in advance.
Classroom hours: 55
Hours employed in laboratory experiments or other activities: 4
Lessons start the last week of February
Written and oral exam
Written test at the end of each module (or cumulative written test on the overall program), consisting in exercises and simple problems.
Partial tests consist of three exercises that must be solved in three hours, cumulative tests consist of four exercises (two exercises for each module) that must be solved in four hours.
Students who have received a grade of at least 15/30 in each of the partial tests or in the final written exam are admitted to the oral exam.
The oral exam consists in the discussion of the written test(s) and in two questions on the course topics, one for each module. The number of questions may be increased, either to achieve an excellent mark, or to reach the level required to pass the exam.
| Date | Time | Location | Type | Notes |
|---|---|---|---|---|
| 15/01/2020 | 09:00 | GENOVA | Scritto + Orale | Per questa data di appello verificare con il Docente: accessibilità per tutti gli studenti, per studenti al secondo anno nel 2018/19 |
| 14/02/2020 | 09:00 | GENOVA | Scritto + Orale | |
| 19/06/2020 | 09:00 | GENOVA | Scritto + Orale | |
| 13/07/2020 | 09:00 | GENOVA | Scritto + Orale | |
| 10/09/2020 | 09:00 | GENOVA | Scritto + Orale |