Course: Physics II

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Course title Physics II
Course code KTMI/KX210
Organizational form of instruction Lecture
Level of course Bachelor
Year of study not specified
Semester Summer
Number of ECTS credits 5
Language of instruction Czech
Status of course Compulsory
Form of instruction unspecified
Work placements unspecified
Recommended optional programme components None
  • Novotný Jan, PhDr. Ph.D.
Course content
1. Micro physics, elemental parts, atomy physics 2. Modelling in physics, physical imagines 3. Electrostatics Electrical field. Electroscope. Electrometer Electrical field strenght Capacity conductor Powers source, electrical appliance, conduktor. 4. Connection of voltmetre and ampermetre on to the circuit. Ohm s law for elecrical circuit part. Electrical resistance, loop circuit. Kirchhoff s laws 5. Elecrical current in gases.Ionization, ions, recombination. Ionizer. Electric discharge under atmospheric pressure:Dependent discharge, ampere-voltage charakteristic, saturated current.Independent discharge, ignition voltage.Arc discharge. Plasma. 6. Magnetic field. Stationary magnetic field: Action of force on flying particles with charge in magnetic field; magnitude and direction of this force. 7. Magnetic properties of materials Self induction: Self inductance Mode of origin of nonstationary magnetic field. 8. Electromagnetic induction. Faraday's law 9. Electrical metering 10. Light - electromagnetic waves.Vacuum speed of light, Optical imaging: (Geometric optics = ray optics).Object of imaging: 11. Basic radiometrical and photometrical quantity 12. Electromagnetical radiation Spectrum electromagnetical of radiation 13. Photometry, hologram, light metering

Learning activities and teaching methods
Learning outcomes
The course follows the technical physics I and gives an overview of basic physical phenomena in other areas of physics in relation to the technical (engineering) physics. The topics are focused on electricity, magnetism, optics and wave physics.

Knowledge of the basics of electrical engineering and optics, Understanding of the principle of various physical phenomena Ability to apply knowledge in practical examples

Assessment methods and criteria
Recommended literature
  • Krupka, F., Kalivoda L. Fyzika.
  • Kunc, S. Sbírka úloh z fyziky, ÚTŘV UJEP.
  • Svoboda, E. Přehled středoškolské fyziky.

Study plans that include the course
Faculty Study plan (Version) Branch of study Category Recommended year of study Recommended semester
Faculty of Mechanical Engineering Energetics - Heat Industry (17) Special and interdisciplinary fields 1 Summer
Faculty of Mechanical Engineering Production Management (17) Mechanical engineering and mechanical production 1 Summer
Faculty of Mechanical Engineering Materials and Technologies in Transport (17) Mechanical engineering and mechanical production 1 Summer