Physics and Electronics Laboratory 1100-2BF21
The Physics and Electronics laboratory consists of 10 practical classes conducted in the laboratory or remotely with the use of tool-kits. Practical sessions will be complemented by 15 hours of introductory classes (lectures).
The course is focused on physics, the principle of work, construction and application of electronic circuits build-out of discrete and integrated analog and digital circuits.
During the course students are trained in different measurement techniques, trained in the interpretation of experimental data, evaluation of uncertainties and comparison with theoretical predictions.
Program:
In the framework of the Electronics laboratory, students conduct 10 practical exercises.
1. Investigation of RC circuits.
2. Oscillations in RLC circuits.
3. Characteristics of germanium, silicon and Zener diode.
4. Characteristics of transistor.
5. Transistor amplifier.
6. Digital integrated circuits I: gates and logical operations
7. Digital integrated circuits II: flip-flops, counters, decoders.
8. Digital integrated circuits III: realisation of own project
9. Analog integrated circuits I: operational amplifiers
10. Analog integrated circuits II: temperature indicator.
Note: The program may change in the case of remote learning or limitation of practical classes number due to pandemic constraints.
Up-to=dat information will be propagated via Kampus platform.
Course coordinators
Learning outcomes
After completion of the Laboratory students posses a knowledge about measurement techniques applied in physics. Students know how to use measuring devices (oscilloscopes, multimeters, computer controlled DAQs systems). Students know how to plan and conduct measurements. Know how to interpret experimental data and are able to perform data analysis taking into account uncertainties. Students are able to design, build and test simple electronic circuits.
Assessment criteria
Assessment form:
Attendance of the laboratory exercises conducted 'in the classroom' is obligatory. Absence has to be justified by the relevant certificate. There are additional meetings foreseen for students who for justified reasons could not attend exercises.
Each laboratory exercise on the Physics and Electronics laboratory will be graded by taking into account the student's preparation for the lab (quiz), quality of experimental work and quality of written report from the conducted experiment.
The preparatory classes are completed by the final test.
The positive assessment of the course requires positive grades from all laboratory exercises and a positive grade from the final test.
The final grade from the Physics and Electronics Laboratory is a weighted average of the grades from quizzes (weight 0.2), laboratory exercises (weight 1) and from the final test (weight 2).
Quizzes preceding the laboratory classes will be organized via the Kampus platform.
Bibliography
1. Instructions are available on a Kampus
2. Paul Horowitz, Winfield Hill, Sztuka elektroniki, cz. 1 i 2,
3. Thomas C. Hayes, Paul Horowitz, Learning the art of electronics: a hand-on lab course
4. John Watson, Elektronika
5. Piotr Górecki, Wyprawy w świat elektroniki oraz Wyprawy w świat elektroniki. Wyższy stopień wtajemniczenia
6. H. Szydłowski, Pracownia fizyczna wspomagana komputerem, Wydawnictwo Naukowe PWN, Warszawa 2003
7. T. Stacewicz, A. Kotlicki, Elektronika w laboratorium naukowym, Wydawnictwo Naukowe PWN, Warszawa 1994
8. J.R. Taylor, Wstęp do analizy błędu pomiarowego. Wydawnictwo Naukowe PWN, Warszawa, 1995.
9. Forbot electronics we course [level I and level II] and Forbot digital electronics web course
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:
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: