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Course, academic year 2023/2024
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Practical Course IV - Atomic and Nuclear Physics - NOFY130
Title: Praktikum IV - Atomová a jaderná fyzika
Guaranteed by: Laboratory of General Physics Education (32-KVOF)
Faculty: Faculty of Mathematics and Physics
Actual: from 2022 to 2023
Semester: winter
E-Credits: 5
Hours per week, examination: winter s.:0/3, MC [HT]
Capacity: unlimited
Min. number of students: unlimited
4EU+: no
Virtual mobility / capacity: no
State of the course: taught
Language: Czech
Teaching methods: full-time
Teaching methods: full-time
Additional information: http://physics.mff.cuni.cz/vyuka/zfp/
Guarantor: RNDr. Jaroslava Piešová, Ph.D.
RNDr. Vojtěch Hanzal
Classification: Physics > General Subjects
Incompatibility : NOFY030
Pre-requisite : NOFY066
Interchangeability : NOFY030
Is incompatible with: NOFY030
Is interchangeable with: NOFY030
Annotation -
Experiments in atomic and nuclear physics.
Last update: Kudrnová Hana, Mgr. (20.05.2019)
Aim of the course -

Experiments in atomic and nuclear physics.

Last update: Kudrnová Hana, Mgr. (20.05.2019)
Course completion requirements - Czech

Podmínkou udělení klasifikovaného zápočtu je změření předepsaného počtu úloh a vypracování referátů.

Termíny měření a odevzdání jsou uvedeny na webových stránkách fyzikálního praktika http://physics.mff.cuni.cz/vyuka/zfp/ v řádu fyzikálního praktika a v přehledu pro zimní semestr.

Hodnocení protokolů a celkové práce v praktiku je podrobně popsáno na stránce http://physics.mff.cuni.cz/vyuka/zfp/hodnoceni.

Povaha kontroly studia předmětu vylučuje opravné termíny zápočtu.

Last update: Kudrnová Hana, Mgr. (20.05.2019)
Literature - Czech

http://www.mff.cuni.cz/studium/zfp/

Last update: Kudrnová Hana, Mgr. (20.05.2019)
Teaching methods - Czech

praktikum

Last update: Kudrnová Hana, Mgr. (20.05.2019)
Syllabus -

A0 Study of gamma-spectra by means of the spectrometer with semiconductor

detector.

A1 Study of the relativistic nuclear interaction. Identification of particles and

identification the type of the interaction on snaps from the bubble chamber.

A2 The ionisation chamber study.

A3 The identification of elements by means of their characteristic Roentgen-radiation.

A4 The total cross sections of gamma-radiation interaction - gamma-radiation

absorption coefficient for some elements.

A5 Alpha rays spectrometry.

A6 Simulation of particle transit through the hadron calorimeter.

A7 Angle-distribution measurement of photons caused by the anihilation of the

electron-positron pair.

A8 Beta rays absorption. Determination of the beta-decay energy by measurement

of emitted radiation absorption.

A9 Study of photoelectric effect. Measurement of the Planck-constant.

A10 Study of nuclear magnetic resonance.

A11 Space quantisation of atom magnetic momentum (Stern-Gerlach experiment).

A12 Electron charge measurement by the Millikan method.

A13 Electron specific charge determination using magnetron characteristics.

A14 Study of nuclear decay statistic event by the Geiger-Mueller detector.

A15 Study of atomic emission spectra.

A16 Ionisation and resonance potentials of mercury, Franck-Hertz experiment.

A17 Zeeman effect.

A18 Structure parameters measurement of crystalline materials using scanning

electron microscope.

A19 Grid parameters of known cubical material measured by Roentgen diffraction

method.

A20 Fourier infrared spectroscopy.

Last update: Kudrnová Hana, Mgr. (20.05.2019)
 
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