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Module № 1.„ Electrical current and magnetic field of a current” – 72 hours total
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ODESSA NATIONAL ACADEMY OF TELECOMMUNICATIONS
After A. S. POPOV
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Department of physics of optical communications
PHYSICS
Module 1. Electrical current and magnetic field of a current
ELECTROMAGNETISM
PART 2: COMPLEX TASK
for bachelor training of educational area 0924 –“Telecommunications”
APPROVED
by the Faculty Council
Protocol № 7
from 14.02.2009
ODESSA 2009
UDK 621.382
Plan of publication 2009.
Writers: assoc. prof. GorbachevV.E., Tumbrukati E.G.
The following methodical guide is about section “Electromagnetism” of physics course for telecommunications technician. Four problems allow students to learn basics of electrical engineering and calculations techniques applied to determine main characteristics of electrical systems and magnetic field. It contains sufficient theoretical information combined with examples of problems’ solutions.
Recommended for students of TE-group, educational area 0924 –“Telecommunications”.
CONFIRMED
at the Department session
Protocol № 6
from 27.02.2009
MODULE STRUCTURE
Module № 1.„ Electrical current and magnetic field of a current” – 72 hours total
Lectures – 16 hrs, pract. trainings – 0 hrs, labs – 16 hrs, self-studies – 33 hrs.
LIST OF PRACTICAL TRAINING
| Number of lessons | Denomination of lessons | Hours |
| Module № 1 | ||
| Vector of electric intensity. Electrostatic force. Electric potential. Difference of the potential. Work done by the electric field moving a charge in electric field. Electro capacity of conductors’ systems. Energy of electric field. | self | |
| The principle of superposition of electric fields. Calculation of resultant electric intensity. | lab | |
| Laws of direct current. | self | |
| Calculation of branched circuits. | lab | |
| Magnetic induction and magnetic intensity. The Ampere force. The Lorentz force. Motion of charged particles in magnetic field. | self | |
| The principle of magnetic fields’ superposition. Calculation of resultant magnetic intensity. | lab | |
| Electromagnetic induction. Self-induction law. | self | |
| Electromagnetic induction law. Calculation of ЕMF of the induction. | lab |
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