Conducted in terms: 2021/22_Z, 2022/23_Z, 2023/24_Z, 2024/25_Z

ECTS credits: 3

Language: Polish

Organized by: Faculty of Mathematics and Natural Sciences. School of Exact Sciences.

Related to study programmes:

Physics - full-time first-cycle studies

I Physics laboratory I WM-FI-262

https://e.uksw.edu.pl/course/view.php?id=32125 (term 2022/23_Z)

This course has not yet been described...

Term 2021/22_Z:

Problems and measurement methods in the field of classical and modern physics with the use of simple electronic techniques and methods of computer analysis of the experiment (measurement uncertainty discussion). Familiarization, acquisition and broadening of skills in the use of Microsoft Office, Mathematica, Origin.

List of exercises included in the laboratory sets available at the 1st Physical Laboratory:
- Checking Ohm's law and Kirchoff's law for resistors.
- Current-voltage characteristics of semiconductor diodes.
- Determination of the dependence of metal resistance on temperature.
- Study of resonances in RLC circuits and determination of the resonance frequency.
- Determination of the vibration period of the reversible pendulum.
- Study of the polarization of laser light.
- Determination of the wavelength of laser light using diffraction gratings.
- Lloyd's mirror - research on the interference of sound waves.
- Checking the Doppler effect for sound waves.
- Checking Lambert's law.
- Determination of the electric potential of charged bodies.
- Determination of the electric field of charged bodies.
- Checking Ohm's law for wires.
- Determination of the modulus of elasticity for springs.
- Determination of the gravitational acceleration from the vibration period of the mathematical pendulum and from the free fall.
- Measurement of the density of solutions using a Mohr scale.
- Determination of ferromagnetic hysteresis loops, determination of the coercivity and remanence fields.

Syllabus prepared by: Paweł Pęczkowski (course coordinator)

(in Polish) Dyscyplina naukowa, do której odnoszą się efekty uczenia się

physical sciences

(in Polish) E-Learning

Term 2021/22_Z:

(in Polish) E-Learning (pełny kurs) z podziałem na grupy

Term 2024/25_Z:

(in Polish) E-Learning

Term 2023/24_Z:

(in Polish) E-Learning

Term 2022/23_Z:

(in Polish) E-Learning (pełny kurs) z podziałem na grupy

Term 2020/21_Z:

(in Polish) E-Learning (pełny kurs) z podziałem na grupy

(in Polish) Grupa przedmiotów ogólnouczenianych

(in Polish) nie dotyczy

(in Polish) Opis nakładu pracy studenta w ECTS

Term 2024/25_Z:

(in Polish) Przedmiot zakłada 30 h. 4 h - zajęcia z niepewności pomiarowych 6 h - przygotowanie raportów laboratoryjnych/sprawozdań 20 h - praca przy sprzęcie laboratoryjnym, wykonywanie ćwiczeń

Term 2020/21_Z:

0 OR 5.00 OR 9.00 (depending on the program)

Term 2022/23_Z:

(in Polish) Wykład i zajęcia praktyczne: 16 godzin Ćwiczenia i prezentacja: 44 godzin Opracowanie danych i napisanie sprawozdania: 35 godzin Konsultacje: 5 godzin SUMA GODZIN: 100 = 4 ECTS, w tym w kontakcie bezpośrednim z Nauczycielem Akademickim: 65 godz. (2 ECTS)

Term 2021/22_Z:

0 OR 5.00 OR 9.00 (depending on the program)

Subject level

elementary

Learning outcome code/codes

(in Polish) FIZ1_W04 FIZ1_W06 FIZ1_W08 FIZ1_W11 FIZ1_U06 FIZ1_U07 FIZ1_U10 FIZ1_U11 FIZ1_U16 FIZ1_K08

Type of subject

obligatory

Preliminary Requirements

(in Polish) Analiza matematyczna I Analiza matematyczna II Fizyka I Fizyka II

Course coordinators

Term 2023/24_Z:

Michał Artymowski
Adam Zakrzewski

Term 2019/20_Z:

Term 2021/22_Z:

Term 2020/21_Z:

Term 2022/23_Z:

Term 2024/25_Z:

Learning outcomes

- Knowledge of the methodology of experimental research.
- Knowledge of basic terminology, nomenclature, customary conventions and physical units.
- Knowledge of measurement methods in the field of physics.
- Ability to carry out simple physical measurements.
- Ability to plan measurements and assess measurement uncertainties.
- Ability to use measuring equipment.
- The ability to form an opinion on basic physical issues.
- Ability to use Microsoft Office package and Origin, Mathematica program.
- Preparation of measurement results, preparation of a report and an oral presentation.
- Ability to work in a group and awareness of the usefulness of the basics of physics in everyday life.

Bibliography

Term 2021/22_Z:

Literature:
- H. Szydłowski, Physics Laboratory, Polish Scientific Publishers PWN, Warsaw 1999
- J. R. Taylor, Introduction to the analysis of measurement error, Wydawnictwo Naukowe PWN, Warsaw, 2001.
- A. Zawadzki, H. Hofmokl, Physical Laboratory, PWN, Warsaw, 1966.
- J. Gaj, Physics laboratory at home, Wydawnictwo-Naukowo Techniczne, Warsaw, 1985.
- A. Majhofer, Analysis of measurement uncertainties and preliminary work, Faculty of Physics, University of Warsaw, script, Warsaw 2010.

Supplementary literature:
- A. Oleś, Experimental methods of solid state physics, Scientific and Technical Publishing House, Warsaw, 1983.

Term 2022/23_Z:

None

Term 2024/25_Z:

None

Additional information

Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:

Physics - full-time first-cycle studies

Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system:

Description of WM-FI-262 in USOSweb