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I Physics laboratory I

General data

Course ID: WM-NS-262
Erasmus code / ISCED: (unknown) / (unknown)
Course title: I Physics laboratory I
Name in Polish: I Pracownia fizyczna I
Organizational unit: Faculty of Mathematics and Natural Sciences. School of Exact Sciences.
Course groups:
ECTS credit allocation (and other scores): (not available) Basic information on ECTS credits allocation principles:
  • the annual hourly workload of the student’s work required to achieve the expected learning outcomes for a given stage is 1500-1800h, corresponding to 60 ECTS;
  • the student’s weekly hourly workload is 45 h;
  • 1 ECTS point corresponds to 25-30 hours of student work needed to achieve the assumed learning outcomes;
  • weekly student workload necessary to achieve the assumed learning outcomes allows to obtain 1.5 ECTS;
  • work required to pass the course, which has been assigned 3 ECTS, constitutes 10% of the semester student load.

view allocation of credits
Language: Polish
Subject level:

elementary

Learning outcome code/codes:

Physics course:

FIZ1_W04; FIZ1_W05; FIZ1_W06; FIZ1_W08; FIZ1_W11; FIZ1_U02; FIZ1_U06; FIZ1_U07; FIZ1_U09; FIZ1_U10; FIZ1_U11; FIZ1_U13; FIZ1_U16; FIZ1_K03; FIZ1_K04; FIZ1_K08; FIZ1_K09


Chemistry course: CH1_W02; CH1_U01; CH1_U04; CH1_U06; CH1_U09; CH1_K05

Short description:

Level of course: Basic

Objectives of the course:

Ability of designing and performing of an experiment in order to determine the value of a physical quantity. Ability of analyzing the acquired experimental data and formulating conclusions.

Prerequisites:

Fundamental physics. Mathematical methods of error analysis. Theory and evaluation for the particular performed experiment.

Full description:

Fundamentals of experimental physics and its methods based on classical and modern physics.

Physics course:

Example experiments in the winter semester (III):

" Ohm's and Kirchoff's law for resistors.

" Wheatstone bridge.

" Current-voltage characteristics of semiconductor diodes.

" Temperature dependence of metal resistance.

" Rectification of alternative current - Graetz bridge.

" Resonance in RLC circuits.

" Mohr scale.

" Kater's pendulum.

" Investigation of laser light polarization.

" Determination of laser light wavelength with the use of diffraction grating.

" Lloyd's mirror - interference of acoustic waves.

" Doppler effect.

" Lambert law.

" Determination of of the electric potential of the charged bodies.

" Determination of of the electric field of the charged bodies.

Chemistry course:

Example experiments in the winter semester (III):

" Ohm's law for wires.

" Ohm's and Kirchoff's law for resistors.

" Wheatstone bridge.

" Resonant frequency in RLC circuits.

" Measurement of solution density using Mohr scale.

Bibliography: (in Polish)

Literatura podstawowa:

H. Szydłowski, Pracownia fizyczna.

G. L. Squires, Praktyczna fizyka.

J. R. Taylor, Wstęp do analizy błędu pomiarowego.

Literatura uzupełniająca:

T. Dryński, Ćwiczenia laboratoryjne z fizyki

Efekty kształcenia i opis ECTS: (in Polish)

Kierunek fizyka:

Wie na czym polega metodyka badań eksperymentalnych.

Zna podstawową terminologię, nomenklaturę, zwyczajowe konwencje i jednostki fizyczne.

Zna główne metody pomiarowe z zakresu fizyki.

Potrafi przeprowadzić proste pomiary fizyczne.

Potrafi planować pomiary i oceniać niepewność pomiarową.

Potrafi korzystać z aparatury pomiarowej.

Zna ograniczenia własnej wiedzy i rozumie potrzebę dalszego kształcenia.

Potrafi formułować opinie na temat podstawowych zagadnień fizycznych.

Kierunek chemia:

Wymienia rodzaje i źródła niepewności pomiarowych.

Wykonuje rachunek niepewności pomiarowych.

Przeprowadza we właściwy sposób pomiary, obsługuje podstawowe przyrządy: zasilacze, mierniki, generatory itp.

Opracowuje wyniki pomiarów, sporządza sprawozdania i prezentacje ustne.

Potrafi pracować w grupie i ma świadomość użyteczności podstaw fizyki w życiu codziennym.

Assessment methods and assessment criteria:

Experiments are performed singly or in pairs. Individually are assessed: + preparation for the experiment (short written introduction, oral test occasionally possible); + co-operation in performing the experiment (activity and skills); + written description of the work done and containing data analysis. Each experiment is assessed separately and five positive notes are required to pass the semester.

Additionally, in the IIIrd semester a written test which evaluates the individual knowledge of data analysis methods is to be passed and short presentation of the one choosen experiment is to be performed. Final note is the average of notes collected in the whole semester.

This course is not currently offered.
Course descriptions are protected by copyright.
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