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Lecturer(s)
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Jemelka Jiří, Ing. Ph.D.
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Janíček Petr, doc. RNDr. Ph.D.
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Course content
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Measurement of the speed of light, sound and refractive index Measurement of electrical conductivity of conductors, semiconductors and superconductors Temperature measurement and calibration of resistance thermometer, thermocouple and thermistor Measurement of electrical resistance and direct current power Study of physical principles of components in electric circuit and different ways of using them Measurement of the discharge curve of capacitors and large resistors Determination of the magnetic moment of the current loop Study of the photoelectric effect and determination of Planck's constant Study of absolute black body radiation and verification of the Stefan-Boltzman law Study of the magnetic field around a conductor Determination of the specific charge of an electron Study of the force acting on a current-carrying conductor in a magnetic field 3D modeling, printing.
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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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1. Practical verification of the basic physical laws encountered by the student in theoretical study of physics during lectures. 2. Supporting specialization of study programs by incorporating application-motivated partial tasks: familiarization with the physical principles of lasers and their use, the possibilities of using semiconductors, the function of optical filters.
Student will obtain after completing the course: 1. the ability to correctly use basic measuring instruments; 2. ability to prepare and realize simple experiments; 3. ability of mathematical processing of measurement results and ability to analyze measured data (Excel, Matlab, Scilab); 4. ability to interpret experimental results; 5. ability to work independently and ability to apply theoretical knowledge to solve practical problems; 6. readiness to work in other bacelor and master study laboratories.
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Prerequisites
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Not specified.
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Assessment methods and criteria
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Discussion, Student portfolio analysis
1.Completing all required laboratory tasks 2.Elaboration and submitting protocols to each task within a specified deadline 3.Obtain the minimum number of points for the submitted protocols. Credit by oral examination
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Recommended literature
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Návody k laboratorním cvičením z fyziky. 2.vyd.,upravila UPa. 1994. ISBN 80-85113-80-5.
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BROŽ J. a kol. Základy fyzikálních měření. Praha: SPN, 1983.
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