PHYSICS
(objectives)
The course introduces the scientific method, presents newton's mechanics and the main electric and magnetic phenomena, together with the pertinent laws. The student becomes familiar with the basic models of classical physics and, in particular, with such concepts as physical quantity, field, conservation law. The student is able to apply the above concepts to the solution of simple problems by means of appropriate analytical procedures.
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Code
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20810137 |
Language
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ITA |
Type of certificate
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Profit certificate
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Module: PHYSICS MODULE I |
Code
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20810137-1 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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FIS/03
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Contact Hours
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-
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Type of Activity
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Basic compulsory activities
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|
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Module: PHYSICS MODULE II
(objectives)
The course introduces the scientific method, presents newton's mechanics and the main electric and magnetic phenomena, together with the pertinent laws. The student becomes familiar with the basic models of classical physics and, in particular, with such concepts as physical quantity, field, conservation law. The student is able to apply the above concepts to the solution of simple problems by means of appropriate analytical procedures.
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Code
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20810137-2 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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6
|
Scientific Disciplinary Sector Code
|
FIS/03
|
Contact Hours
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54
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Type of Activity
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Basic compulsory activities
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Teacher
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POMPEO NICOLA
(syllabus)
Dynamics of systems of material points - systems of material points. Internal and external forces - First cardinal equation for systems dynamics - Center of mass and its motion - Conservation of momentum - Collisions (brief notes) - Moment of a force and angular momentum - Second cardinal equation for systems dynamics - Conservation of angular momentum - Koenig theorems
Rigid body dynamics - Definition of rigid body and its properties - Continuous bodies. Density and center of mass - Rigid body kinematics. Angular velocity - Rigid body dynamics. Rotations around a fixed axis - Moment of inertia - Huygens-Steiner theorem - Compound pendulum - Rolling motion - Equilibrium for a rigid body
Introduction to electromagnetism - Electric charge and Coulomb's law - Electrostatic field - Flux of a vector field and Gauss's law - Electric potential - Conductors and capacitors - Stationary electric currents - Ohm's law - Magnetic interactions - Lorentz force - Magnetic force on current carrying conductors - Magnetic field generated by a current - Gauss's law for the magnetic field - Ampere's law - Dielectric and magnetic properties of materials (brief notes)
(reference books)
- P. Mazzoldi, M. Nigro, C. Voci, "Elementi di Fisica. Vol. II: Elettromagnetismo", terza edizione, Edises, Napoli
(*) Notes on selected arguments are also available on the course website
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Dates of beginning and end of teaching activities
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From 27/02/2023 to 09/06/2023 |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Written test
Oral exam
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Teacher
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VIDAL GARCIA PABLO
(syllabus)
Electromagnetism: - Electric charge and Coulomb's law - Electrostatic field - Vector field flux and Gauss's law: application to the electric field - Electrostatic potential - Conductors and Capacitors - Stationary electric current - Ohm's law - Introduction to magnetic interactions - Lorentz force - Magnetic force on electric currents - Magnetic fields by electric currents - Vector field flux and Gauss's law: application to the magnetic field - Ampere's Theorem - Electric (dielectric) and magnetic properties of matter
(reference books)
P. Mazzoldi, M. Nigro, C. Voci, "Elementi di Fisica. Elettromagnetismo. Onde", 2nd ed., Edises, 2008.
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Dates of beginning and end of teaching activities
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From 27/02/2023 to 09/06/2023 |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Written test
Oral exam
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