Course title | Physics II |
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Course code | KMF/IFY2E |
Organizational form of instruction | Lecture + Tutorial |
Level of course | Bachelor |
Year of study | 2 |
Semester | Winter |
Number of ECTS credits | 4 |
Language of instruction | Czech |
Status of course | Compulsory-optional |
Form of instruction | Face-to-face |
Work placements | This is not an internship |
Recommended optional programme components | None |
Lecturer(s) |
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Course content |
Basic notions of magnetism. Lorentz´s force. Intensity of magnetic field. Motion of electric particle in magnetic field. Mass spectroscopy. Ampere´s law. Biot-Savart law. Magnetic properties of materials. Electromagnetic induction. Inductance. Transient fenomene. Oscillatory motion. Waves. Huygen´s principle. Generátore. Transformers. Alternating current. Komplex formalism. Basic circuits with harmonic quantities. Fundamentals of hydromechanics. Pascal´s principle and Archimedes law. Continuity theorem and Bernoulli´s equation. Fundamentals of thermodynamics. Heat and temperature. First law, second law. Gaseous laws. Fundamentals of optics. Reflection and refraction of light. Mirrors, lens and prisms. Optical apparaturses.
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Learning activities and teaching methods |
Monologic (reading, lecture, briefing), Laboratory work |
Learning outcomes |
Subject develop the knowledge that students are familiar with the subject of Physics I. It focuses primarily on electricity, magnetism and basic ideas of quantum physics, as well as to basic knowledge of fluid mechanics, termiky and thermodynamics, optics and the construction of an atom. In the seminars students solve problems associated with substance.
After graduating, the student will focus on basic classical physics. |
Prerequisites |
unspecified
KMF/IFY1E |
Assessment methods and criteria |
Oral examination, Written examination
Exam prerequisites: two written work (examples), completion of laboratory exercises is an oral test. |
Recommended literature |
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Study plans that include the course |
Faculty | Study plan (Version) | Category of Branch/Specialization | Recommended semester | |
---|---|---|---|---|
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Communication and Microprocessor Technology (2015) | Category: Electrical engineering, telecommunication and IT | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Communication and Microprocessor Technology (2016) | Category: Electrical engineering, telecommunication and IT | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Process Control (2014) | Category: Special and interdisciplinary fields | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Communication and Microprocessor Technology (2013) | Category: Electrical engineering, telecommunication and IT | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Process Control (2013) | Category: Special and interdisciplinary fields | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Process Control (2015) | Category: Special and interdisciplinary fields | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Process Control (2016) | Category: Special and interdisciplinary fields | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Electrical Engineering and Informatics | Study plan (Version): Communication and Microprocessor Technology (2014) | Category: Electrical engineering, telecommunication and IT | 2 | Recommended year of study:2, Recommended semester: Winter |