Electromagnetism
A.Y. 2018/2019
Learning objectives
Il corso (120 ore) introduce la fenomenologia di base e la struttura matematica per la comprensione e l'analisi dei campi elettrici e magnetici, statici e variabili nel tempo, mediante le equazioni di Maxwell
Expected learning outcomes
Undefined
Lesson period: Activity scheduled over several sessions (see Course syllabus and organization section for more detailed information).
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
CORSO A
Responsible
Lesson period
year
Course syllabus
1-Electrostatic. Electric field in vacuum, conductors, dielectric media. D.C. current and basic circuit
2-Magnetostatic. Magnetic field in vacuum and in matter. Ferromagnetic material and circuit
3-Time varying field. Electromagnetic induction and displacement current. The full set of Maxwell equation in vacuum and in matter
4-Application of Maxwell equations. Electromagnetic waves in vacuum. Plane waves in dielectric: reflection and refraction of waves at interface. Electromagnetic fields from scalar and vector potential: gauges. Retarded potential. Radiation from electric dipole.
2-Magnetostatic. Magnetic field in vacuum and in matter. Ferromagnetic material and circuit
3-Time varying field. Electromagnetic induction and displacement current. The full set of Maxwell equation in vacuum and in matter
4-Application of Maxwell equations. Electromagnetic waves in vacuum. Plane waves in dielectric: reflection and refraction of waves at interface. Electromagnetic fields from scalar and vector potential: gauges. Retarded potential. Radiation from electric dipole.
FIS/01 - EXPERIMENTAL PHYSICS
FIS/07 - APPLIED PHYSICS
FIS/07 - APPLIED PHYSICS
Practicals: 50 hours
Lessons: 80 hours
Lessons: 80 hours
Professors:
Maero Giancarlo, Ragusa Francesco
CORSO B
Responsible
Lesson period
year
Course syllabus
1-Electrostatic. Electric field in vacuum, conductors, dielectric media. D.C. current and basic circuit
2-Magnetostatic. Magnetic field in vacuum and in matter. Ferromagnetic material and circuit
3-Time varying field. Electromagnetic induction and displacement current. The full set of Maxwell equation in vacuum and in matter
4-Application of Maxwell equations. Electromagnetic waves in vacuum. Plane waves in dielectric: reflection and refraction of waves at interface. Electromagnetic fields from scalar and vector potential: gauges. Retarded potential. Radiation from electric dipole.
2-Magnetostatic. Magnetic field in vacuum and in matter. Ferromagnetic material and circuit
3-Time varying field. Electromagnetic induction and displacement current. The full set of Maxwell equation in vacuum and in matter
4-Application of Maxwell equations. Electromagnetic waves in vacuum. Plane waves in dielectric: reflection and refraction of waves at interface. Electromagnetic fields from scalar and vector potential: gauges. Retarded potential. Radiation from electric dipole.
FIS/01 - EXPERIMENTAL PHYSICS
FIS/07 - APPLIED PHYSICS
FIS/07 - APPLIED PHYSICS
Practicals: 50 hours
Lessons: 80 hours
Lessons: 80 hours
Professors:
Colo' Gianluca, Roca Maza Javier
Professor(s)
Reception:
by appointment via e-mail
Via Celoria 16: office (DC building, first floor) / laboratory (ex-cyclotron building); online via Zoom/Skype
Reception:
please contact [email protected] to arrange an appointment
Via Celoria 16 - Edificio LITA, IV floor/ Zoom videoconference platform
Reception:
Set appointment via email. Please contact me few days in advance.
Office: Celoria 16, building LITA, first floor; or zoom meeting