Studying at the University of Verona

Here you can find information on the organisational aspects of the Programme, lecture timetables, learning activities and useful contact details for your time at the University, from enrolment to graduation.

A.A. 2019/2020

Academic calendar

The academic calendar shows the deadlines and scheduled events that are relevant to students, teaching and technical-administrative staff of the University. Public holidays and University closures are also indicated. The academic year normally begins on 1 October each year and ends on 30 September of the following year.

Academic calendar

Course calendar

The Academic Calendar sets out the degree programme lecture and exam timetables, as well as the relevant university closure dates..

Definition of lesson periods
Period From To
I semestre Oct 1, 2019 Jan 31, 2020
II semestre Mar 2, 2020 Jun 12, 2020
Exam sessions
Session From To
Sessione invernale d'esame Feb 3, 2020 Feb 28, 2020
Sessione estiva d'esame Jun 15, 2020 Jul 31, 2020
Sessione autunnale d'esame Sep 1, 2020 Sep 30, 2020
Degree sessions
Session From To
Sessione estiva di laurea Jul 22, 2020 Jul 22, 2020
Sessione autunnale di laurea Oct 14, 2020 Oct 14, 2020
Sessione autunnale di laurea solo triennale Dec 10, 2020 Dec 10, 2020
Sessione invernale di laurea Mar 16, 2021 Mar 16, 2021
Holidays
Period From To
Festa di Ognissanti Nov 1, 2019 Nov 1, 2019
Festa dell'Immacolata Dec 8, 2019 Dec 8, 2019
Vacanze di Natale Dec 23, 2019 Jan 6, 2020
Vacanze di Pasqua Apr 10, 2020 Apr 14, 2020
Festa della Liberazione Apr 25, 2020 Apr 25, 2020
Festa del lavoro May 1, 2020 May 1, 2020
Festa del Santo Patrono May 21, 2020 May 21, 2020
Festa della Repubblica Jun 2, 2020 Jun 2, 2020
Vacanze estive Aug 10, 2020 Aug 23, 2020

Exam calendar

Exam dates and rounds are managed by the relevant Science and Engineering Teaching and Student Services Unit.
To view all the exam sessions available, please use the Exam dashboard on ESSE3.
If you forgot your login details or have problems logging in, please contact the relevant IT HelpDesk, or check the login details recovery web page.

Exam calendar

Should you have any doubts or questions, please check the Enrolment FAQs

Academic staff

A B C D F G L M O P R S Z

Albi Giacomo

giacomo.albi@univr.it +39 045 802 7913

Angeleri Lidia

lidia.angeleri@univr.it 045 802 7911

Baldo Sisto

sisto.baldo@univr.it 045 802 7935

Bos Leonard Peter

leonardpeter.bos@univr.it +39 045 802 7987

Boscaini Maurizio

maurizio.boscaini@univr.it

Busato Federico

federico.busato@univr.it

Caliari Marco

marco.caliari@univr.it +39 045 802 7904

Canevari Giacomo

giacomo.canevari@univr.it +39 045 8027979

Chignola Roberto

roberto.chignola@univr.it 045 802 7953

Daffara Claudia

claudia.daffara@univr.it +39 045 802 7942

Dai Pra Paolo

paolo.daipra@univr.it +39 0458027093

Daldosso Nicola

nicola.daldosso@univr.it +39 045 8027076 - 7828 (laboratorio)

De Sinopoli Francesco

francesco.desinopoli@univr.it 045 842 5450

Di Persio Luca

luca.dipersio@univr.it +39 045 802 7968

Fioroni Tamara

tamara.fioroni@univr.it 0458028489

Gnoatto Alessandro

alessandro.gnoatto@univr.it 045 802 8537

Gregorio Enrico

Enrico.Gregorio@univr.it 045 802 7937

Liptak Zsuzsanna

zsuzsanna.liptak@univr.it +39 045 802 7032

Magazzini Laura

laura.magazzini@univr.it 045 8028525

Mantese Francesca

francesca.mantese@univr.it +39 045 802 7978

Mariotto Gino

gino.mariotto@univr.it +39 045 8027031

Mazzuoccolo Giuseppe

giuseppe.mazzuoccolo@univr.it +39 0458027838

Migliorini Sara

sara.migliorini@univr.it +39 045 802 7908

Monti Francesca

francesca.monti@univr.it 045 802 7910

Orlandi Giandomenico

giandomenico.orlandi at univr.it 045 802 7986

Piccinelli Fabio

fabio.piccinelli@univr.it +39 045 802 7097

Rizzi Romeo

romeo.rizzi@univr.it +39 045 8027088

Sansonetto Nicola

nicola.sansonetto@univr.it 049-8027932

Schuster Peter Michael

peter.schuster@univr.it +39 045 802 7029

Solitro Ugo

ugo.solitro@univr.it +39 045 802 7977

Zuccher Simone

simone.zuccher@univr.it

Study Plan

The Study Plan includes all modules, teaching and learning activities that each student will need to undertake during their time at the University. Please select your Study Plan based on your enrolment year.

CURRICULUM TIPO:
ModulesCreditsTAFSSD
6
B
(MAT/03)
6
A
(MAT/02)
6
C
(SECS-P/01)
6
C
(SECS-P/01)
English B1
6
E
-
ModulesCreditsTAFSSD
6
C
(SECS-P/05)
9
C
(SECS-S/06)
Final exam
6
E
-

2° Year

ModulesCreditsTAFSSD
6
B
(MAT/03)
6
A
(MAT/02)
6
C
(SECS-P/01)
6
C
(SECS-P/01)
English B1
6
E
-

3° Year

ModulesCreditsTAFSSD
6
C
(SECS-P/05)
9
C
(SECS-S/06)
Final exam
6
E
-
Modules Credits TAF SSD
Between the years: 1°- 2°- 3°
Between the years: 1°- 2°- 3°
Other activitites
6
F
-

Legend | Type of training activity (TTA)

TAF (Type of Educational Activity) All courses and activities are classified into different types of educational activities, indicated by a letter.




SPlacements in companies, public or private institutions and professional associations

Teaching code

4S00035

Coordinatore

Claudia Daffara

Credits

6

Scientific Disciplinary Sector (SSD)

FIS/01 - EXPERIMENTAL PHYSICS

Language

Italian

Period

II semestre dal Mar 2, 2020 al Jun 12, 2020.

Learning outcomes

The course provides the fundamental knowledge of Electromagnetism and Optics in Classical Physics aimed at:
1) achieving a deep level of understanding of the physical principles and phenomena illustrated during the course, rigorous in the theoretical aspects,
2) making the student familiar with the mathematical formalism that allows the modeling of these phenomena,
3) providing methodologies for solving an applied problem in the field.

At the end of the course the student will have:
1) solid knowledge of the fundamental physical laws of the electrical and magnetic phenomena,
2) ability in modeling a physical phenomena by determining the validity of known relations,
3) ability in applying the theory to different framework for solving problems in rigorous way and with a scientific method.

Program

The course is based on theoretical lessons and exercises on the following topics:

- ELECTROSTATICS IN VACUUM
Experimental facts. Electric charge. Structure of matter. Coulomb law. Electric field E. Work of the electric F. Electrostatic potential energy and electrostatic potential. Flux of the field E and Gauss law. Discontinuities of the electric field. Differential equations of the electric field. Poisson and Laplace equations.
- ELECTROSTATICS IN CONDUCTORS
Conductors in equilibrium. Electrostatic induction. Electrostatic surface pressure. Cavity in a conductor. Electrostatic screening. Capacity. Capacitors.
Equilibrium in the electrostatic field. Uniqueness of the solution of the Laplace equation. Image method.
- ELECTROSTATICS IN DIELECTRICS
Electric dipole. Dipole in external field E. Energy of a dipole. Dipole approximation.
Electric field in materials. Uniform / non-uniform polarization. Linear dielectrics. Electrostatics equations in dielectrics.
- ELECTROSTATIC ENERGY
system of charges, system of conductors. Energy of a capacitor in vacuum and in dielectric media. Energy of the electric field. Energy of the point charge.
Motion of charges in electric field.
- ELECTRIC CURRENTS
Electric current, electromotive force. Classical theory of electrical conduction. Continuity equation for the charge.
Ohm law, joule effect, resistors. Kirchoff laws, elementary circuits. Charge / discharge of a capacitor.
- MAGNETOSTATICS IN VACUUM
Experimental facts. Magnetic field B, F of Lorentz, II law of Laplace. Motion of charges in magnetic field. Hall effect. Magnetic dipole. Dipole in external field B. Field B of stationary currents. Circulation of the magnetic field B and Ampère law. Discontinuities of the magnetic field. Vector potential. I law of Laplace. Field B of a moving charge. Solenoidal fields, concatenated flux. Differential equations of the magnetic field.
- TIME-VARYING FIELDS
Electromagnetic induction - experimental facts, flux law. Induced electric field and Faraday law. Lenz law. Energy balance. Mutual Inductance. Self-inductance, inductances. RL circuit and variable EMF.
- MAGNETIC ENERGY
Intrinsic energy of the current, system of stationary currents. Energy of the magnetic field. Energy of a magnetic dipole.
- MAXWELL EQUATIONS AND ELECTROMAGNETIC WAVES
Maxwell equations in integral and local form. Displacement current and Ampère-Maxwell law. Radiation of a circuit. Energy of the electromagnetic field. Energy flux and momentum of the e.m. field. Continuity equation. Potentials of the e.m. field.
Recalls on waves: transverse waves, longitudinal waves, harmonic wave, plane waves, spherical waves. D'Alembert wave equation. Maxwell equations in vacuum and the solution of e.m waves. Speed ​​of light, energy transported, intensity. Polarization. Electromagnetic spectrum. Principles of Optics.

Bibliografia

Reference texts
Author Title Publishing house Year ISBN Notes
P. Mazzoldi, M. Nigro, C. Voci Elementi di Fisica Vol. 2 - Elettromagnetismo e Onde (Edizione 2) EdiSES 2007 9788879594783
Alessandro Bettini Elettromagnetismo Zanichelli 2001 9788808038234

Examination Methods

To pass the examination the students have to demonstrate:

- knowledge and understanding of the principles and the physical phenomena of classical electromagnetism
- to possess critical skills in the observation of electrical and magnetic phenomena and to know how to model these phenomena with a scientific method and adequate mathematical formalism
- to know how to apply the principles and the laws of physics to the different contexts for solving complex problems of electromagnetism.

Written examination (3 hours):
The exam includes
1) electromagnetism exercises (related to the exercises program carried out);
2) theory questions (related to the entire program).

Optional oral examination:
on the topics of the course program

Type D and Type F activities

I semestre From 10/1/19 To 1/31/20
years Modules TAF Teacher
1° 2° 3° Python programming language D Maurizio Boscaini (Coordinatore)
1° 2° 3° SageMath F Zsuzsanna Liptak (Coordinatore)
1° 2° 3° History of Modern Physics 2 D Francesca Monti (Coordinatore)
1° 2° 3° History and Didactics of Geology D Guido Gonzato (Coordinatore)
II semestre From 3/2/20 To 6/12/20
years Modules TAF Teacher
1° 2° 3° C Programming Language D Sara Migliorini (Coordinatore)
1° 2° 3° C++ Programming Language D Federico Busato (Coordinatore)
1° 2° 3° LaTeX Language D Enrico Gregorio (Coordinatore)
List of courses with unassigned period
years Modules TAF Teacher
1° 2° 3° Corso Europrogettazione D Not yet assigned
1° 2° 3° Corso online ARPM bootcamp F Not yet assigned
1° 2° 3° ECMI modelling week F Not yet assigned
1° 2° 3° ESA Summer of code in space (SOCIS) F Not yet assigned
1° 2° 3° Google summer of code (GSOC) F Not yet assigned

Career prospects


Module/Programme news

News for students

There you will find information, resources and services useful during your time at the University (Student’s exam record, your study plan on ESSE3, Distance Learning courses, university email account, office forms, administrative procedures, etc.). You can log into MyUnivr with your GIA login details.

Attendance

As stated in point 25 of the Teaching Regulations for the A.Y. 2021/2022, except for specific practical or lab activities, attendance is not mandatory. Regarding these activities, please see the web page of each module for information on the number of hours that must be attended on-site.
Please refer to the Crisis Unit's latest updates for the mode of teaching.

Graduation

Attachments

List of theses and work experience proposals

theses proposals Research area
Formule di rappresentazione per gradienti generalizzati Mathematics - Analysis
Formule di rappresentazione per gradienti generalizzati Mathematics - Mathematics
Mathematics Bachelor and Master thesis titles Various topics
Stage Research area
Internship proposals for students in mathematics Various topics

Gestione carriere


Further services

I servizi e le attività di orientamento sono pensati per fornire alle future matricole gli strumenti e le informazioni che consentano loro di compiere una scelta consapevole del corso di studi universitario.