Lecturer(s)
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Course content
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Measurement methods, mathematical and graphical measurement processing, measurement errors, conclusions. Frontal and individual measurement: material density, moment of inertia, Hooke's law, elasticity moduli, sound and ultrasound velocity, specific thermal capacity, basic electrical quantities (resistance, electromotoric voltage, internal resistance), resistance temperature dependency of various materials, electron velocity distribution, semiconductor component characteristics, focal length of thin and thick lenses, light wavelength, ferromagnetic properties.
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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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Physical quantities, methods of measurement. Preparation of experiment, processing of experimental data. Mechanical, acoustical, thermodynamical, electrical, magnetic and optical measurements.
Students will learn the basics of experimental measurements in physics.
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Prerequisites
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Basic knowledge of the field.
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Assessment methods and criteria
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Student's performance analysis, Systematické pozorování studenta
Finishing of prescribed tasks, presentation of adequate number of reports, satisfactory results of running checks.
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Recommended literature
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Brož,J. a kol. Základy fyzikálních měření II.. Praha: SPN, 1974.
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Brož,J. a kol. Základy fyzikálních měření I.. Praha: SPN, 1983.
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Čmelík, M., Machonský, L., Šíma, Z. Fyzikální tabulky. Liberec: TUL, 2005. ISBN 80-7372-009-4.
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Kolektiv autorů. Úvod do fyzikálních měření. Liberec: TUL, 2012. ISBN 978-80-7372-819-9.
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KOPAL, A. Fyzika I. Liberec: TUL, 2009. ISBN 978-80-7372-477-1.
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Mádr,V., Knejzlík,J., Kopečný,J. Fyzikální měření. Praha: SNTL, 1991. ISBN 80-03-00266-4.
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Wagner, J., Kopal, A. Fyzika II. 2. vydání. Liberec: TUL, 1995. ISBN 80-7083-118-9.
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