General physics 1
General data
Course ID: | WM-FI-S1-E1-FO1 |
Erasmus code / ISCED: | (unknown) / (unknown) |
Course title: | General physics 1 |
Name in Polish: | Fizyka ogólna 1 |
Organizational unit: | Faculty of Mathematics and Natural Sciences. School of Exact Sciences. |
Course groups: | |
ECTS credit allocation (and other scores): |
7.00
OR
5.00
OR
8.00
(depends on study program)
|
Language: | Polish |
(in Polish) Dyscyplina naukowa, do której odnoszą się efekty uczenia się: | physical sciences |
Subject level: | elementary |
Learning outcome code/codes: | CH1_W02, FIZ1_W02, W03, W04, CH1_U01, FIZ1_U02, U03 |
Short description: |
The aim of the lecture is introduction of basic concepts of classical kinematics and dynamics. |
Full description: |
1. The subject and methods of physics 2. Physics as natural science 3. The vectors and scalars in physics 4. Derivatives, integrals, and differential equations 5. Kinematics of the material point 6. Newton’s principles of dynamics 7. Dynamics of the material point 8. Dynamics of a system of point particles 9. Kepler’s laws 10. Galilean and Lorentz transformations 11. Special relativity 12. Relativistic mechanics 13. Kinematics and dynamics of a rigid body 14. Fluid mechanics 15. Importance of classical mechanics |
Bibliography: |
R. Resnick, D. Halliday, Physics, Part 1, John Wiley & Suns, New York, since 1960 many editions. W. Moebs et al. (2018) Openstacks Katalyst Education Polska, isbn 978-83-948838-1-2 R. P. Feynman, R. B. Leighton, M. Sands, The Feynman Lectures on Physics, vol. 1, part 1, vol. 2 part 2 (sections 40, 41), Addison - Wesley, Reading 1963. B. M. Jaworski, A. A. Dietław, Physics Encyclopedic Guide, Wydawnictwo Naukowe PWN, Warszawa 2000 (part I. Mechanics). |
Efekty kształcenia i opis ECTS: |
On successful completion of this course the student should know basic principles of classical mechanics related to Newton’s principles and the law of gravitation with application to simple physical systems, including rigid bodies and fluids. The student should grasp importance of relativistic mechanics. He should also be able to apply theoretical mechanics to solve the problems in nature. |
Assessment methods and assessment criteria: |
Understanding questions of classical mechanics and ability to solve practical problems proposed during the lectures and exercises. |
Classes in period "Winter semester 2021/22" (past)
Time span: | 2021-10-01 - 2022-01-31 |
Navigate to timetable
MO CW
CW
TU W TH WYK
FR |
Type of class: |
Classes, 60 hours
Lectures, 30 hours
|
|
Coordinators: | Wiesław Macek | |
Group instructors: | Nikola Cichocka, Wiesław Macek, Łukasz Mioduszewski | |
Students list: | (inaccessible to you) | |
Examination: | examination | |
(in Polish) E-Learning: | (in Polish) E-Learning (pełny kurs) z podziałem na grupy |
Classes in period "Winter semester 2022/23" (past)
Time span: | 2022-10-01 - 2023-01-31 |
Navigate to timetable
MO WYK
CW
CW
TU W TH FR |
Type of class: |
Classes, 60 hours
Lectures, 30 hours
|
|
Coordinators: | Wiesław Macek | |
Group instructors: | Nikola Cichocka, Wiesław Macek | |
Course homepage: | https://e.uksw.edu.pl/course/view.php?id=31917 | |
Students list: | (inaccessible to you) | |
Examination: | examination | |
(in Polish) E-Learning: | (in Polish) E-Learning (pełny kurs) z podziałem na grupy |
Classes in period "Winter semester 2023/24" (past)
Time span: | 2023-10-01 - 2024-01-31 |
Navigate to timetable
MO WYK
CW
CW
TU W TH FR |
Type of class: |
Classes, 60 hours
Lectures, 30 hours
|
|
Coordinators: | Wiesław Macek | |
Group instructors: | Nikola Cichocka, Wiesław Macek | |
Course homepage: | https://e.uksw.edu.pl/course/view.php?id=38124 | |
Students list: | (inaccessible to you) | |
Examination: | examination | |
(in Polish) E-Learning: | (in Polish) E-Learning |
|
(in Polish) Opis nakładu pracy studenta w ECTS: | (in Polish) uczestnictwo w zajęciach: 30 h przygotowanie do zajęć: 20 h przygotowanie do weryfikacji: 20 h konsultacje z prowadzącym: 20 h |
|
Type of subject: | obligatory |
|
(in Polish) Grupa przedmiotów ogólnouczenianych: | (in Polish) nie dotyczy |
|
Short description: |
(in Polish) Celem wykładu jest wprowadzenie podstaw kinematyki i dynamiki klasycznej. |
|
Full description: |
(in Polish) 1. Przedmiot i metody fizyki 2. Fizyka a inne nauki przyrodnicze 3. Wektory i skalary w fizyce 4. Pochodne, całki i równania różniczkowe 5. Kinematyka punktu materialnego 6. Zasady dynamiki Newtona 7. Dynamika punktu materialnego 8. Dynamika układu punktów materialnych 9. Prawa Keplera 10. Transformacja Galileusza i Lorentza 11. Szczególna teoria względności 12. Mechanika relatywistyczna 13. Kinematyka i dynamika ruchu obrotowego 14. Mechanika płynów 15. Znaczenie mechaniki klasycznej |
|
Bibliography: |
(in Polish) Literatura podstawowa R. Resnick, D. Halliday, Fizyka Tom 1, Wydawnictwo Naukowe PWN, Warszawa 2001. W. Moebs et al. (2018) Openstacks Katalyst Education Polska, isbn 978-83-948838-1-2 R. P. Feynman, R. B. Leighton, M. Sands, Feynmana wykłady z fizyki, tom 1, część 1, tom 2 cz. 2 (roz. 40, 41), Państwowe Wydawnictwo Naukowe, Warszawa 1970. B. M. Jaworski, A. A. Dietław, Fizyka. Poradnik encyklopedyczny, Wydawnictwo Naukowe PWN, Warszawa 2000 (cz. I. Mechanika). A. Hennel, W. Krzyżanowski, W. Szuszkiewicz, K. Wódkiewicz, Zadania i problemy z fizyki. Mechanika klasyczna i relatywistyczna, Wydawnictwo Naukowe PWN (wydanie V), Warszawa 1999. Literatura uzupełniająca: D. Halliday, R. Resnick, J. Walker, Podstawy fizyki tom 1 (Mechanika), PWN, Warszawa 2005 P. G. Hewitt, Fizyka wokół nas, PWN, Warszawa 2010 K. Ernst, Fizyka sportu, PWN, Warszawa 2010 |
Copyright by Cardinal Stefan Wyszynski University in Warsaw.