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Lecturer(s)
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Janíček Petr, doc. RNDr. Ph.D.
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Steinhart Miloš, doc. RNDr. CSc.
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Course content
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Speed of light measurement Speed of sound measurement Electrical conductivity and superconductivity Thermal conductivity measurement Thermal expansion measurement Stefan-Boltzmann law of radiation Planck constant from the photoelectric effect Magnetic moment of current loop Gravitational acceleration by inverted and mathematical pendulum measurement Gravitational constant measurement Torsion module by static and dynamic method measurement Resitance themometer, thermocouple and thermistor calibration Motion of electrons in force fields Electromagnetic induction Hall effect in semiconductor and magnetoresistance Franck-Hertz experiment Electron diffraction on crystal lattice Polarization of light study Preparation and reconstruction of transmission hologram 3D modeling, printing and density of print and filament measurement
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Learning activities and teaching methods
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Laboratory work
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Learning outcomes
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Practical validation of basic physical laws and rules.
Ability of preparation and executing of simple experiments, ability of interpretation of experimental results. Readiness for work in laboratories of master studies.
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Prerequisites
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Not specified.
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Assessment methods and criteria
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Oral examination, Student performance assessment
An laboratory reports and an oral exam.
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Recommended literature
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Návody k jednotlivým laboratorním cvičením z fyziky, STAG.
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BROŽ J. a kol. Základy fyzikálních měření. Praha: SPN, 1983.
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HORÁK Z. Praktická fysika. Praha: SNTL, 1958.
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