Physics in experiments
General data
Course ID: | 1100-1BB25 |
Erasmus code / ISCED: |
13.2
|
Course title: | Physics in experiments |
Name in Polish: | Fizyka w doświadczeniach |
Organizational unit: | Faculty of Physics |
Course groups: | |
Course homepage: | http://www.fuw.edu.pl/~kkorona/fizyka_w.html |
ECTS credit allocation (and other scores): |
(not available)
|
Language: | Polish |
Prerequisites (description): | Secondary school, interest in science. |
Mode: | Classroom |
Short description: |
Lecture on basic physics that includes a selection of simple physical experiments and their explanation in terms of laws of physics. |
Full description: |
We are going to present a selection of simple physical experiments and explain them in terms of laws of physics. Most of the experiments are designed in a way allowing the student to repeat them at home. Calculations will be reduced to a strict minimum. However, we describe also phenomena that have much large scale (light years) or much smaller scale (nanometers). Program: 1. Force and movement 1.1 The basic concepts of mechanics 1.2 Description and prediction of movement 1.3 Matter and conservation rules 2. Vibrations and waves 2.1 Periodic movement 2.2 Resonators and waves 3. Heat and molecules 3.1 Temperature and molecules 3.2 Engines 3.3 Organisation of matter 4. Fields and currents 4.1 Electricity 4.2 Magnetism 4.3 Electrons inside matter 5. Visible and invisible light 5.1 Properties of light 5.2 Emission and perception of light Description by Krzysztof Korona, November 2019 |
Bibliography: |
1. Presentations on web page: http://www.fuw.edu.pl/~kkorona/fizyka_w.html 2. Basic level handbooks on physics 3. P. G. Hewitt, ‘Fizyka wokół nas’, Wydawnictwo Naukowe PWN, Warszawa 2001 4. Joanne Baker, '50 teorii fizyki które powinieneś znać' 5. Wiedza i Życie, dział "Laboratorium" 6. J. Domański, ‘Domowe zadania doświadczalne z fizyki’, Prószyński i S-ka, Warszawa 1999 |
Learning outcomes: |
The learning outcome is basic knowledge of physics and experiments. After crediting with the lecture student: 1. Knows that experiment is the foundation of the scientific method 2. Knows the main measurement techniques 3. Knows main issues of general physics 4. Knows some issues of contemporary physics 5. Reads with comprehension popular scientific texts 6. Recognizes and explains physical phenomena 7. Conducts and analyzes simple experiments. |
Assessment methods and assessment criteria: |
Points for activity and final exam. The exam has a form of test composed of simple questions related to theory and experiments presented during lectures. Correctional exam: test. |
Practical placement: |
none |
Copyright by University of Warsaw.