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.
Type D and Type F activities
This information is intended exclusively for students already enrolled in this course.If you are a new student interested in enrolling, you can find information about the course of study on the course page:
Laurea in Scienze e tecnologie viticole ed enologiche - Enrollment from 2025/2026Type D and Type F activities
Type D educational activities are at the student's choice, Type F activities are additional knowledge useful for job placement (internships, transversal skills, project works, etc.). According to the Didactic Regulations of the Course, some activities can be chosen and entered independently in the booklet, others must be approved by a special committee to verify their consistency with the study plan. Type D or F educational activities can be covered by the following activities.
1. Teachings taught at the University of Verona.
Include the teachings below and/or in the Catalog of Teachingshttps://www.univr.it/it/catalogo-insegnamenti - Opens in a new window (which can also be filtered by language of delivery via Advanced Search).
Booklet entry mode: if the teaching is included among those listed below, the student can enter it independently during the period- Opens in a new window in which the syllabus is open; otherwise, the student must make a request to the Secretariat, sending to carriere.scienze@ateneo.univr.it- Opens in a new window the form- Opens in a new window in the period indicated- Opens in a new window.
2. CLA language certificate or equivalency.
In addition to those required by the curriculum, the following are recognized for those matriculated from A.Y. 2021/2022:
- English language: 3 CFUs are recognized for each level of proficiency above that required by the course of study (if not already recognized in the previous course of study).
- Other languages and Italian for foreigners: 3 cfu are recognized for each proficiency level starting from A2 (if not already recognized in the previous study cycle).
These cfu will be recognized, up to a maximum of 6 cfu in total, of type F if the teaching plan allows it, or of type D. Additional elective credits for language knowledge may be recognized only if consistent with the student's educational project and if adequately motivated.
Those matriculated up to A.Y. 2020/2021 should consult the information found here- services - cla - language exercises - science and engineering https://www.scienzeingegneria.univr.it/?ent=iniziativa&id=4688 - Opens in a new window.
Booklet entry mode: apply for the certificate- Opens in a new window orequivalency- services - recognition of external language certifications - cla Opens in a new window to the CLA and send it to the Student Secretariat - Careers for the inclusion of the exam in the career, by email: carriere.scienze@ateneo.univr.it- Opens in a new window
3. Soft skills
Discover the training paths promoted by the University's TALC - Teaching and learning centerhttps://talc.univr.it/ - Opens in a new window, intended for students regularly enrolled in the academic year of course delivery https://talc.univr.it/it/competenze-trasversali- Opens in a new window
Booklet entry mode: The teaching is not intended to be included in the syllabus. Only upon obtaining theOpen Badgehttps://talc.univr.it/it/servizi/open-badge - Opens in a new window will the booklet CFUs be automatically validated. The registration of CFUs in career is not instantaneous, but there will be some technical time to wait.
4. Contamination lab
The Contamination Lab Verona (CLab Verona) is an experiential pathway with modules dedicated to innovation and business culture that offers the opportunity to work in teams with students from all courses of study to solve challenges launched by companies and institutions. The pathway allows students to receive 6 CFUs in the D or F area. Discover the challenges: https://www.univr.it/clabverona- Opens in a new window
PLEASE NOTE: To be eligible to take any teaching activity, including electives, you must be enrolled in the year of the course in which it is offered. Therefore, it is recommended that undergraduates of the December and April sessions DO NOT take extracurricular activities of the new academic year, in which they are not enrolled, since these degree sessions are valid with reference to the previous academic year. Therefore, for activities carried out in an academic year in which they are not enrolled, no recognition of CFUs can be given.
In addition to the CFUs stipulated in the curriculum (check carefully what is indicated on the Educational Regulations) here- services - internships and apprenticeships - science and engineering It opens in a new window you can find information on how to activate the internship.
Check in the regulations which activities can be Type D and which can be Type F.
Please also note that for internships activated from October 1, 2024, it will be possible to recognize excess hours in terms of Type D credits, limited only to internship experiences carried out at host institutions outside the University.
| years | Modules | TAF | Teacher |
|---|---|---|---|
| 3° | Cellar door wine tourism | D |
Katia Laura Sidali
(Coordinator)
|
| 3° | Wine marketing | D |
Giuseppe Nocella
(Coordinator)
|
| 3° | New Grapevine Breeding techniques | D |
Sara Zenoni
(Coordinator)
|
| years | Modules | TAF | Teacher |
|---|---|---|---|
| 3° | Protection of intangible assets (SW and invention)between industrial law and copyright | D |
Mila Dalla Preda
(Coordinator)
|
| years | Modules | TAF | Teacher |
|---|---|---|---|
| 1° | Subject requirements: basic mathematics and physics | D |
Elisa Artegiani
(Coordinator)
|
Bases of applied physics (2024/2025)
Teaching code
4S02732
Teacher
Coordinator
Credits
6
Language
Italian
Scientific Disciplinary Sector (SSD)
FIS/07 - APPLIED PHYSICS
Period
Semester 1 dal Oct 1, 2024 al Jan 31, 2025.
Courses Single
Authorized
Learning objectives
Familiarization with the basic concepts of mechanics, fluid dynamics, thermodynamics, electrology and magnetism, and optics.
Prerequisites and basic notions
Cartesian plane, points, linear function, angular coefficient, trigonometric relations, sine and cosine, right-angled triangle, derivatives.
Program
PHYSICS: Physical quantities, Units of measurement, International System, Multiples and submultiples, Equivalences, Scientific notation, Significant figures, Exercises. VECTORS: Definition, Modulus, Scalar by vector, Sum Scalar product, Determinant of a 2X2 matrix, 3X3 Determinants, Vector product, Exercises. MATHEMATICAL COMPLEMENTS: Cartesian plane, Points, Linear function, Angular coefficient, Trigonometric relations, Sine and cosine, Right-angled triangle, Derivatives, Subsequent derivatives, Derivatives in physics, Exercises. KINEMATICS: Position, Speed, Uniform rectilinear motion, xt and vt graphs, Acceleration, Uniformly accelerated rectilinear motion, xt, vt and at graphs, MRU and MRUA hourly laws, General information on the xt graph, General information on the vt graph, General information on the at graph, Parabolic motion, Exercises. Circular motion, Uniform circular motion, Centripetal acceleration, Angles and radians, Period and frequency, Angular velocity and average angular velocity, Angular acceleration and average angular acceleration, Relationship between linear quantities and angular quantities, Circular motion: hourly laws, Exercises. POINT MECHANICS: Forces, First law of dynamics, Momentum, Second law of dynamics, Third law of dynamics, Hooke's law, Harmonic motion, Harmonic oscillator, Gravity force, Pendulum, Gravity acceleration, Static friction force Force of dynamic friction, Inclined plane, Exercises. Conservation of momentum, Exercises. Energy, Work, Kinetic energy, Gravitational potential energy, Elastic potential energy, Conservative forces, Conservation of mechanical energy, Mechanical energy and non-conservative forces, Power, Atwood machine - ideal pulley, Elastic collisions, Exercises. FLUID STATICS: Pressure, Pascal's Principle, Hydraulic Press, Stevin's Law, Torricelli's Experiment, U-tube, Archimedes' Law, Buoyancy, Exercises. FLUID DYNAMICS: Flow rate of an ideal fluid, Bernoulli's theorem, Power of a pump, Venturi tube, Torricelli's theorem, Stokes' law and viscosity, Exercises. TEMPERATURE AND HEAT: Temperature: operational definition, Heat: definition, Thermal equilibrium, Thermometric scales, Linear dilation, Surface dilation, Volume dilation, Fundamental law of thermology, Aggregation states, Heat and state transitions, Heating curve, Exercises. KINETIC THEORY OF GAS: Ideal gases, Gay-Lussac's law, Charles' law, Boyle's law, Avogadro's law, Ideal gas law, Kinetic theory of gases, Kinetic energy of gases and temperature, Velocity and average velocity, Exercises. THERMODYNAMICS: First principle, Isochoric transformations, Isobaric transformations, Isothermal transformations, Adiabatic transformations, Cycles, CV and Cp, Exercises. Second law, Clausius and Kelvin, Thermal machines, Efficiency, Coefficient of performance, Carnot cycle, Carnot theorem, Entropy, Entropy and its variation, Exercises. ELECTRIC AND MAGNETIC FIELD: Electric field, Coulomb's law, Electric field, Gauss' theorem, Flat capacitor, Exercises. Potential, Potential energy, Potential of a point charge, Capacitance, Capacitance of the capacitor, Energy in a capacitor, Energy density, Exercises. Electric current, Ohmic conductor, Ohm's first law, Ohm's second law, Microscopic interpretation, Circuits, Law of nodes and links, Resistors, Resistors in series, Resistors in parallel, Capacitors, Capacitors in series, Capacitors in parallel, RC circuit, Exercises. Magnetic field, Lorentz's law, Charge motion in B field, Speed selector, Force on a piece of wire, Biot and Savart's law, Circuitry, Ampere's theorem, Forces between wires, Solenoid, Exercises. WAVES AND LIGHT: General information on waves, Notes on Fourier development, Harmonic waves, Characteristics of light waves, Reflection, Refraction, Total reflection, Dispersion, Exercises Geometric optics: Parabolic mirror, Construction of images, Parabolic and spherical mirror, Mirror spherical, flat mirror, concave mirrors, convex mirrors, thin lenses, thin convergent lenses, thin divergent lenses, Exercises.
Bibliography
Didactic methods
Frontal lesson.
Learning assessment procedures
Multiple-choice test on the entire course program, administered during the exam sessions via an IT platform.
Evaluation criteria
The ability to solve physics exercises on topics covered is evaluated.
Criteria for the composition of the final grade
The final grade is based on the outcome of the multiple choice test.
Exam language
Italiano
