# GENERAL PHYSICS

## Learning outcomes of the course unit

This course aims to give to the students the basic knowledge on

electrostatic and electromagnetism.

This course aims to give to the students the basic knowledge on

electrostatic and electromagnetism.

## Prerequisites

Course of General Physics 1

Course of General Physics 1

## Course contents summary

Electric charge - Electrostatic laws - Electric field - Particles in an electric field - Gauss law and its applications - Electrostatic properties of conductors - Electric potential energy - Electric potential - Relation between field and potential - Capacity and capacitors - Parallel and series capacitors - Electrostatic energy - Dielectrics -

Current and resistance - Resistance and Ohm law –The Drude’s model

– Semiconductors – Parallel and series resistances – Voltmeters and

Amperometers - DC circuits. Batteries – Electric energy – Kirchhoff laws – RC circuit - Magnetostatic - History – Magnetic field - Oersted, Ampère, Biot e

Savart experiments- Lorentz force – Force on a current - Ampère law –

Ampère law applications: linear wire, coil, planar current – Mass

spectrometer – Force between currents – Field generated by a coil –

Dipolar field – Particles motion in a magnetic field - Magnetic induction. Faraday-Lenz law – induced efm – Motors and generators – Transformers and inductances – Reciprocal induction

coefficient – Self induction – Magnetic energy - Alternated currents. RL circuit – Oscillations in a LC circuit - RLC circuit - Maxwell equations. Displacement current - Maxwell equations –

Electric charge - Electrostatic laws - Electric field - Particles in an electric field - Gauss law and its applications - Electrostatic properties of conductors - Electric potential energy - Electric potential - Relation between field and potential - Capacity and capacitors - Parallel and series capacitors - Electrostatic energy - Dielectrics -

Current and resistance - Resistance and Ohm law –The Drude’s model

– Semiconductors – Parallel and series resistances – Voltmeters and

Amperometers - DC circuits. Batteries – Electric energy – Kirchhoff laws – RC circuit - Magnetostatic - History – Magnetic field - Oersted, Ampère, Biot e

Savart experiments- Lorentz force – Force on a current - Ampère law –

Ampère law applications: linear wire, coil, planar current – Mass

spectrometer – Force between currents – Field generated by a coil –

Dipolar field – Particles motion in a magnetic field - Magnetic induction. Faraday-Lenz law – induced efm – Motors and generators – Transformers and inductances – Reciprocal induction

coefficient – Self induction – Magnetic energy - Alternated currents. RL circuit – Oscillations in a LC circuit - RLC circuit - Maxwell equations. Displacement current - Maxwell equations –

## Course contents

see the course web site: http://www.fis.unipr.it/fisica2ricco/

see the course web site: http://www.fis.unipr.it/fisica2ricco/

## Recommended readings

W.E. Gettys, F.J. Keller, M.J. Skove, Fisica classica e moderna 2. McGraw-

Hill Libri Italia, Milano, 1998

W.E. Gettys, F.J. Keller, M.J. Skove, Fisica classica e moderna 2. McGraw-

Hill Libri Italia, Milano, 1998

## Teaching methods

Theoretical lessons will be completed with practical ones consisting into

the assisted solution of exercises on the treated arguments. Some

demonstration activities are planned.

Theoretical lessons will be completed with practical ones consisting into

the assisted solution of exercises on the treated arguments. Some

demonstration activities are planned.

## Assessment methods and criteria

There will be two infra annum tests during the course. If both of them will be passed, the students who want to take the exam in the first two sessions (January or February) will be admitted to the oral exam directly. The final judgment will be based on the outcome of the latter and on the two written tests. In some cases, if the tests have been very successful, a final vote will be offered directly to the student, exempting him from the oral exam.

Both in the final exam and in the two infra annum tests will be composed of multiple answer exercises. The correct answer, with explanation worth 1 point, the correct ones but without explanation are worth ½ points, while incorrect answers imply a ½ point penalty.

Each student has a single chance to pass the exam through the infra annum tests. The student is not necessarily required to take advantage of this opportunity during the year of the course but can do so in the following years by filling in the appropriate census form on the exam website. Written and oral examination of an appeal is a single assessment element and can not be separated (that is, written evidence of an appeal can not be valid for a subsequent appeal). In general, in cases where the committee deems it appropriate, the candidate may be exempted from the oral examination.

The students who constantly attend the lessons and get a pass on the

infra annum tests, can take a simplified final exam. The others will have

to take a complete one which consists of a written and, if required, an

oral test.

## Other informations

For further information and to see the results of the tests and exams see the course web site: http://www.fis.unipr.it/fisica2ricco/

For further information and to see the results of the tests and exams see the course web site: http://www.fis.unipr.it/fisica2ricco/