Physics WF-OB-FIZ
- https://teams.microsoft.com/l/team/19%3a5e8039fb42904615bd4f046e63082427%40thread.tacv2/conversations?groupId=f8f8fbcb-4330-4c8a-af7f-59bec90949d1&tenantId=12578430-c51b-4816-8163-c7281035b9b3 (term 2021/22_Z)
- https://teams.microsoft.com/l/team/19%3a5e8039fb42904615bd4f046e63082427%40thread.tacv2/conversations?groupId=f8f8fbcb-4330-4c8a-af7f-59bec90949d1&tenantId=12578430-c51b-4816-8163-c7281035b9b3 (term 2022/23_Z)
- https://teams.microsoft.com/l/team/19%3a5e8039fb42904615bd4f046e63082427%40thread.tacv2/conversations?groupId=f8f8fbcb-4330-4c8a-af7f-59bec90949d1&tenantId=12578430-c51b-4816-8163-c7281035b9b3 (term 2023/24_Z)
- https://teams.microsoft.com/l/team/19%3a5e8039fb42904615bd4f046e63082427%40thread.tacv2/conversations?groupId=f8f8fbcb-4330-4c8a-af7f-59bec90949d1&tenantId=12578430-c51b-4816-8163-c7281035b9b3 (term 2024/25_Z)
Cosmology. Models of the Universe. Variable stars and spectral characteristics of stars. Red shift. Hublle's rule. Age of the Universe. Big Bang. Quazars. Relict radiation. Standard Model of the Universe and the history of the Universe. The orygin of galaxies. Categories of galaxies. Density and content of the matter in the Universe. Star evolution and H-R diagram. Supernovas.Star chemistry and the orygin of elements. Thermonuclera reaction. Physics of the ocean. Termal and mechanical energy transferred to the ocean. Types of waves. Their period and lenght. Deep and shallow water waves. Tidial waves. Ocean currents. Coriolis force. Thermal movement of water and distribution of temperatures in waters. El Nino. Waves superpositon. Fourier analysis. Autocorrelations. Physics of gases. Pressure. Equation of perfect gas. Absolute temperature. Average kinetic energy of particles and the temparature. Diffusion. Irreversible processes. Physiscs of liquids. Bernoulli rule. Why does airplane fligh. Movement of liquids. Movement of a body in liquids. Viscosity, resistance and Reynolds number. Turbulent and laminar movement.
(in Polish) Grupa przedmiotów ogólnouczenianych
Subject level
Learning outcome code/codes
Type of subject
Course coordinators
Learning outcomes
Knowledge
EK 1 - student knows basic information about building and evolution of the Universe and about important physical interactions shaping it.
EK 2 - student understands physical processes influencing Earth's environment.
EK 3 - student understands importance of these precesses for living organisms.
Abilities
EK 4 - student is able to explain physical phenomena observed in the nature which are important for living organisms (including geophysical processes and processes influencing organism's physiology).
Competence
EK 5 - student is open for rational explanations of physical phenomena observed in nature.
ECTS [1 ECTS = 30(25) h]
participation in classes: 30 h
participation in exercises: 30 h
preparation to exercises: 30 h
preparation of presentation: 15 h
preparation to exam: 45 h
total hours: 150 [120/30(25)=5]
ECTS number: 5
Assessment criteria
The test at the end of semester. The presence and activity at exercises are also important.
Bibliography
Dera J. 1983. Fizyka morza. PWN
Heller M.1985. Ewolucja kosmosu i kosmologii. PWN.
Katscher F. 1967. Fizyka popularna. Wiedza Powszechna.
Szymborscy S i K. 1981. Wszechocean. Wiedza Powszechna.
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: