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The course is aimed at understanding the fundamental physical phenomena and the development of technical thinking. The laws of physics and physical principles, that are essential for connecting objects in a bachelor study program, are discussed and explained.
Last update: Hofmann Jaroslav (11.07.2013)
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Students will be able to: Explain the essence of selected physical phenomena in the field of mechanics, oscillations and waves, optics, electricity and magnetism Apply physical laws in the study of related objects Separately deal with physical tasks, which are the basis for a follow-up study Use computer technology with a suitable software (for example. MAPLE) to deal with the more complex physical tasks Last update: TAJ444 (16.12.2013)
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R: Halliday D., Resnick R., Walker J., Fundamentals of Physics. John Wiley & Sons, Inc. New York, 2005, ISBN 0-471-21643-7 Last update: Hofmann Jaroslav (11.07.2013)
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Výuka formou přednášek a výpočetních seminárních cvičení Last update: Hofmann Jaroslav (08.11.2012)
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1. Introduction, Kinematics of translatory motion: Physical quatities, The International System of Units. The displacement vector, the velocity vector, the acceleration vector. 2. Basic concepts of Mechanics I: Force, the Newton's laws, work, power, kinetic and potential energy. Conservation of mechanical energy and linear momentum, elastic and inelastic collisions. 3. Basic concepts of Mechanics II: Moment of inertia, torque, angular momentum. Work, power and energy in rotational motion. Rolling motion of rigid bodies. Static equilibrium conditions, center of gravity. 4. Continuum and fluid mechanics: Forces in continuum, deformation, Hooke's law. Hydrostatic presure, Archimedes' law. Bernoulli's equation, real liquid flow. 5. Oscillations: undamped, damped and forced harmonic oscillations. Composed oscillations. 6. Waves: Description, propagation velocity, intensity. Huygen's principle, refraction and reflection, Snell's law. Interference, standing waves. 7. Wave optics: Concept of light, interference, thin film, sigle-slit diffraction, diffraction grating, polarization, optical activity. 8. Geometric optics: Basic concepts, reflection and refraction, optical instruments: magnifying glass, microscope. 9. Electrostatic field: Coulomb's law. Electric dipole. Potential, voltage, work. Capacitor, dielectric polarization. Charge motion in an electric field. 10. Direct current circuits: Ohm's law, Joule's law. Kirchhoff's rules. Current, voltage and resistance measurements. 11. Magnetic field: Magnetic force. Mass spectrograph, electric measurement instruments, cyclotron, the Hall effect. Biot-Savart law, Ampere's law. Magnetic fields in matter. 12. Electromagnetic field: Electromagnetic induction, proper and mutual inductance. Electromagnetic waves, energy of electromagnetic field. 13. Alternating current circuits: Generator. Power. Impedance, phase shift, serial resonance circuit. 14. The kinetic theory of gases: Pressure, temperature, the distribution of molecular speeds, average, rms and most probable speeds. Last update: Hofmann Jaroslav (11.07.2013)
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http://ufmt.vscht.cz/cs/elektronicke-pomucky.html (in Czech) Last update: Hofmann Jaroslav (11.07.2013)
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Mathematics A Last update: Hofmann Jaroslav (11.07.2013)
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Teaching methods | ||||
Activity | Credits | Hours | ||
Konzultace s vyučujícími | 0.5 | 14 | ||
Účast na přednáškách | 1.5 | 42 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1.5 | 42 | ||
Příprava na zkoušku a její absolvování | 2.5 | 70 | ||
Účast na seminářích | 1 | 28 | ||
7 / 7 | 196 / 196 |
Coursework assessment | |
Form | Significance |
Examination test | 40 |
Continuous assessment of study performance and course -credit tests | 20 |
Oral examination | 40 |