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Physics measurements laboratory 3

2022/2023
Programme:
Applied Physics, First Cycle
Year:
2 year
Semester:
first
Kind:
mandatory
ECTS:
4
Language:
slovenian
Course director:
Lecturer (contact person):
Hours per week – 1. semester:
Lectures
0.27
Seminar
0
Tutorial
0
Lab
3.73
Prerequisites

Enrollment into the program.

Content (Syllabus outline)

Experimental practice
Torsion pendulum, bending of support, Earth’s magnetic field, heat capacity, Ferroelectricity, Michelson's interferometer, Transmission line Optical spectrometer, Radiometer, Piezoelectricity, Si diod characteristics, Resistor- thermometer, acoustical resonator, ferromagnetism.

Readings

Navodila za vaje v Praktikumu merilne tehnike III. Navodila so dostopna na spletu.

Instructions for Laboratory practice III, available on the web site.

Objectives and competences

Objectives:
Performing experiments from classical and modern physics with experimental equipment based on modern measurement methods typically found in research and industrial laboratories.

Competences:
practical skills in handling measuring systems
ability to address experimental issues in physical experiments
Ability to search for practical solutions in the literature and internet.
Relating practical skills to the obtained knowledge of fundamental physical principles.

Intended learning outcomes

Knowledge and understanding:

Students learn to relate the observation and measurement of physical phenomena, control of experimental parameters, handling logbook, performing basic data transfer and data analysis, presentation of obtained results in a form of a written final report on the experiment.

Learning and teaching methods

Individual experimental practice, consultations

Assessment

Preparation and performance of individual experiments
Understanding of physical problem addressed
Data analysis and written report defense

Lecturer's references

[1] LIKAR, Andrej, CVETKO, Dean, PLANINŠIČ, Gorazd. Zgledi iz fizikalnih merjenj, (Zbirka izbranih poglavij iz fizike, 43). 2. izd. Ljubljana: DMFA - založništvo, 2011. 191 str., ilustr. ISBN 978-961-212-242-3.
[2] BATRA, Arunabh, KLADNIK, Gregor, VÁZQUEZ, Héctor, MEISNER, Jeffrey S., FLOREANO, Luca, NUCKOLLS, Colin, CVETKO, Dean, MORGANTE, Alberto, VENKATARAMAN, Latha. Quantifying through-space charge transfer dynamics in TT-coupled molecular systems. Nature communications, ISSN 2041-1723, 2012, vol. 3, str. 1086-1-1086-7, doi: 10.1038/ncomms2083.
[3] BATRA, Arunabh, KLADNIK, Gregor, GORJIZADEH, Narjes, MEISNER, Jeffrey S., STEIGERWALD, Michael, NUCKOLLS, Colin, QUEK, S. Y., CVETKO, Dean, MORGANTE, Alberto, VENKATARAMAN, Latha. Trimethyltin-mediated covalent gold-carbon bond formation. Journal of the American Chemical Society, ISSN 0002-7863, 2014, vol. 136, iss. 36, str. 12556-12559, ilustr. http://pubs.acs.org/doi/abs/10.1021/ja5061406, doi: 10.1021/ja5061406.