Politecnico di Torino
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Politecnico di Torino
Academic Year 2009/10
14AXPFD, 14AXPEU, 14AXPEX, 14AXPFN
Physics II
1st degree and Bachelor-level of the Bologna process in Electrical Engineering - Torino
1st degree and Bachelor-level of the Bologna process in Chemical Engineering - Torino
1st degree and Bachelor-level of the Bologna process in Material Engineering - Torino
Espandi...
Teacher Status SSD Les Ex Lab Tut Years teaching
Kaniadakis Giorgio ORARIO RICEVIMENTO A2 FIS/03 56 28 0 0 15
SSD CFU Activities Area context
FIS/01 7.5 A - Di base Fisica e chimica
Objectives of the course
It is a basic course of 7.5 credits consisting in 56 hours of lessons and in 28 hours of exercises. The course has a double objective. On one hand it provides an unitary and systematic description of the electromagnetic and wave phenomenology and on the other hand it emphasises the methodology of scientific investigation for the treated physical phenomena. The subjects treated in the course are divided in four sections. Finally in a last fifth section some basic concepts of modern physics with some specific technological applications are considered.
Expected skills
Ad the end of the course the student will acquire the competences which will permit him to tackle, critically, specific problems emerging during the study of electromagnetic and wave phenomenology. Finally the student will be able to treat some elementary problems of modern physics.
Prerequisites
In order to better understand the subjects treated in the present course it is required a familiarity, previously acquired, with the contents of the courses of Physics I, Analysis I, and Geometry.
Syllabus
Part I ' Electrostatics and Electric Current.
Coulomb law. Electric field. Gauss theorem.
Electric potential Electric dipol.
The Electic field in the conductors and in the dielectrics. Capacitance. Capacitors. Electric current. Ohm law. Introduction to the elctric circuits.

Part II ' Magnetostatics.
Magnetic field. Magnetic force on a moving charge in a conductor and on a conductor. Coil in a magnetic field. Biot-Savard Law.
Magnetic force between two parallel conductors. Field in a solenoid. Gauss law in magnetism. Diamagnetic, paramagnetic and ferromagnetic materials.


Part III ' Electromagnetism.
Faraday law of electromagnetic induction.
Electromotive force in moving circuits in a magnetic field. Lenz law. Electromotive forces induced by time depending fields. Selfinduction.
Mutual induction. Circuits RL and RCL. Oscillations in circuits. Ampere Law for time dependent currents. Maxwell equations in integral and differential form.


Part IV ' Electromagnetic waves and Optics.
Maxwell equations in the vacuum. Plane electromagnetic waves. Energy and momentum of an electromagnetic wave. Polarization of plane electromagnetic waves.
Riflection and rifraction of the light.
Huygens principle. Fermat principle.
Geometrical Optics. Mirrors and lens.
Physical optics. Interferance and Difraction.

Part V. Modern Physics and Applications.
Introduction to special relativity. Relativity principle. Constance light speed principle.
Galileo and Lorentz tranformations.
Length contraction and time dilatation.
Dopler effect. Relativistic additivity for the velocities. Relativistic dynamics. Relativistic mass. Relativistic momentum. Relativistic kinetic energy. Rest energy.
Introduction to Quantum mechanics. Wave function. Schroedinger equation. Heisemberg uncertainty principle.
Laboratories and/or exercises
The subjects treated in the lessons are followed by exercises. In the considered exercises it will given particular attention both in the analytic as well as in the numerical technics for their solutions.
Bibliography
References:
R.A. Serway, R.J. Beichner: Fisica per Scienze ed Ingegneria, Volume II. EdiSES ' Napoli.
D. Halliday, R. Resnick, J. Walker: Fondamenti di Fisica: Elettrologia, Magnetismo e Ottica. CEA ' Milano.
Advaced Text :
P. Mazzoldi, M. Nigro, C. Voci, FISICA Volume II. EdiSES ' Napoli.
Exercises on line:
In the web site of the Politecnico the student can find several solved exercises
Check availability at the library
Revisions / Exam
The final examination consists in a preliminary written test in class or in the informatics laboratory followed by an oral discussion.

Programma definitivo per l'A.A.2008/09
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