Academic year2016/17
CourseENERGY ENGINEERING
Code649II
Credits9
PeriodSemester 1
LanguageItalian
| Modules | Area | Type | Hours | Teacher(s) |
| ELETTROTECNICA | ING-IND/31 | LEZIONI | 90 | |
Programma non disponibile nella lingua selezionata
Knowledge
The student who successfully completes the course will have the ability to analyze linear electric networks by using general methods in transient behaviour. He or she will be able to describe the behaviour of multiterminal electric components in terms of voltage-current relationship and to manage the equivalent circuits to reduce the computation complexity. He or she will manage the general methods for the analysis of three-phase circuits.
Lastly he or she will acquire the ability of evaluating the electromagnetic field due to slowly varying currents.
Assessment criteria of knowledge
In the written exam (3 hours), the student must demonstrate his/her hability in solving a number (typically 5) of simple exercises covering the most important topics of the course.
During the oral exam the student must be able to demonstrate his/her knowledge of the advanced principles of the circuit theory and of electromagnetics and discuss them using the appropriate terminology.
Methods:
- Final oral exam
- Final written exam
Further information:
The final exam consists in a written exam which is a prerequisite for the oral one. The minimum allowed score at the written exam is 15/30. The weighting is: final written exam 33.3%; final oral exam 66.6%.
Teaching methods
Delivery: face to face
Learning activities:
Attendance: Advised
Teaching methods:
Syllabus
Multiterminal and multiport components; two-port components. Transient phenomena in circuits; Laplace transform; voltage-current relationship in Laplace domain; circuit response in Laplace domain; analysis of switching circuits. Three-phase systems. Multiconductor transmission lines. Introduction to nonlinear circuits. Analysis of magnetic cores. Maxwell equations and their expression in different coordinate systems. Electrostatics. Magnetostatics. Magnetodynamics. Field diffusion and shielding. Poynting theorem and interaction with mechanical forces.
Bibliography
A. Longo, Analisi dei circuiti elettrici lineari, ETS Pisa.
S. Bobbio e E. Gatti, Elementi di Elettromagnetismo, Boringhieri.
C. Paul, K. Whites and S Nasar, Introduction to Electromagnetic Fields, McGraw Hill.
Recommended reading includes the following works:
C.A. Desoer, E. S. Kuh, Basic circuit theory. McGrawHill.
Updated: 14/11/2016 17:27
