Beginner's guide to the Universe WM-FI-BGU
The lecture will contain an introduction to the most fundamental theories of cosmology astrophysics and elementary particles. Each lecture will be divided into 3 parts. the first will be dedicated to the transfer of knowledge, the second one will contain philosophical implications of discussed physical theories while the third one will be focused on unconstrained discussion with the students.
1) – What do we know about the Universe? What does the Universe look like, both locally and globally? How unique is the Solar System and its surroundings? How do we know all this and what does it mean to „know” in science?
2) – The very beginning, i.e., the Big Bang. What the origin of the Universe? Must it have any beginning at all? What’s the difference between the Big Bang in science and pop culture? Possible, realistic scenarios for the beginning of the Universe.
3) – Stars! Our Sun - a typical star in a typical phase of its evolution. There are so many kinds of stars, including dwarfs that live for billions of years, and giants that that will explode in just millions. What’s the origin of stars? What are white dwarfs, neutron stars, and black holes?
4) – Black holes. What’s that? How can you make one? Can we see any? What happens to the matter that falls into the black hole? Could black holes create another Universe?
5) – Invisible Universe. Dark matter and dark energy contribute 95% to the present-day Energy of the Universe. What are they? What’s their origin? Are we the „dark” ones? Are there entire planets created out of dark matter?
6) – Extra dimensions. How many dimensions may our Universe have? We see 3D with our own eyes, but could there be more, especially in the past?
7) – Exoplanets – other Earths in the Universe. Are there more planets in the solar system and how do we know it? Could we see exoplanets? The most “crazy” examples!
8) – Life in the Universe. Are we alone? How has life on earth started? Is life (as a phenomenon in the universe) probable or improbable? How to estimate how much life there is in the Universe? Should we expect life to be intelligent? Why we haven’t heard from any aliens so far?
9) – Parallel Universes. Is our Universe the only way the world could be created? How could one make billions more? How do other Universes look like? Could there be life in them?
10) – Improbable Universe. There are so many amazing coincidences that enable the existence of life. Is it probable to live in such a Universe? What’s fine-tuning? How all physics we know is crazy finely tuned for life, as we know it?
11) – Universe in its smallest scales. What fundamental building blocks of matter look like? Are there any particles that we don’t know yet? What is the Higgs particle?
12) – The origin of matter. How come we have atoms, stars, and planets? Why the Universe is not filled just by light? What’s the origin of all of the heavy elements, like gold or uranium?
13) - Time travel and sci-fi movies. What’s actually realistic in sci-fi? Could we travel in time? Is it possible to travel through black holes? Lightsabers? Could you travel faster than light? What is teleportation? could we test it in laboratories?
14) - Gravitational waves - the greatest discovery of recent years. How could we measure them? What could they tell us about the history of the universe? How could we use them in the future?
15) - How the end of the universe may look like? possible scenarios of the end of the world. What does “the end of the world” really mean? The end of the life on earth vs the end of earth vs the end of the Universe. What physics tells us about realistic scenarios of the “latter-day”? Maybe there won't be any “end of the world” after all?
(in Polish) E-Learning
Term 2021/22_L: (in Polish) E-Learning (pełny kurs) | Term 2023/24_Z: (in Polish) E-Learning | Term 2020/21_L: (in Polish) E-Learning (pełny kurs) z podziałem na grupy | Term 2022/23_Z: (in Polish) E-Learning (pełny kurs) z podziałem na grupy |
(in Polish) Grupa przedmiotów ogólnouczenianych
Subject level
Learning outcome code/codes
Type of subject
Course coordinators
Learning outcomes
Students will gain knowledge in the field of modern physics and astronomy. They will learn about the fundamental “building blocks” of matter, and about the origin and the future of the Universe (EW1)
1) Lectures will enable students to connect the newest discoveries of science with their philosophical implementations and consequences (EU1)
2) Students will learn basic methods of verifying the validity of scientific theories (EW2)
3) Each lecture will include an open discussion, during which students will improve their critical thinking skills and will get a chance to freely and creatively express themselves. (EK1)
4) Students will learn how to distinguish between cheap pseudoscientific sensation, motivated hypothesis, and proper scientific knowledge (EU2)
5) Students will present knowledge gained during the course by writing 2-5 pages finishing an essay on one of the topics discussed in the lectures (EW3) or by writing a test.
ECTS points: 3
30 h of lectures plus 45 h dedicated to writing the essay discussing one of the topics of the lecture or learning for the test
Assessment criteria
The lecture will be held in a popular science manner. It won't contain any equations or complicated mathematics. It will be filled with illustrations and animations showing different aspects of the history of the Universe. The lectures will be held in an informal manner, the students will be encouraged to interrupt the lecture at any given moment and ask questions. The end of every lecture will be dedicated to discussion with students about physics itself and the philosophical consequences of modern science.
Students will be evaluated based on their attendance, participation in discussions, and their finishing essay
1) Conditions for grade 5 – student has a basic knowledge of the scientific method (EW2); knows basic building blocks of matter, has basic knowledge on the history of the Universe (EW1), can connect modern scientific discoveries with their philosophical consequences (EU1); has advanced critical thinking skills, is able to accurately distinguish between science and pseudoscience (EU2).
2) Conditions for grade 4 – student has a basic knowledge of the scientific method (EW2); knows basic building blocks of matter, has basic knowledge on the history of the Universe (EW1), can connect modern scientific discoveries with their philosophical consequences (EU1); has intermediate critical thinking skills, usually distinguishes between science and pseudoscience (EU2)
3) Conditions for grade 3 – student has a basic knowledge of the scientific method (EW2); knows basic building blocks of matter, has basic knowledge on the history of the Universe (EW1), usually can connect modern scientific discoveries with their philosophical consequences (EU1); has basic critical thinking skills, usually distinguish between science and pseudoscience (EU2)
Methods to evaluate knowledge and skills of the students:
EW1, EW2- Continuous evaluation during lectures and discussions, essay, test
EW3 – Essay, test
EU1, EU2 – Continuous evaluation during lectures and discussions, essay, test
EK1 - Continuous evaluation during lectures and discussions, essay, test
Grading criteria:
The final grade will consist of
50% Participation in lectures – 10 points
50% Essay – 6 points
or
50% Participation in lectures – 10 points
50% Test– 10 points
Criteria of evaluation:
2 – Below 50% points
3 – 50%-65% points
4 – 65%-80% points
5 – above 80% points
Bibliography
[Q&A] PW TALKS WITH MICHIO KAKU: Untangling the Universe.
The Nature of Space and Time / Stephen Hawking; Roger Penrose.
Beyond Einstein : Superstrings and the Quest for the Final Theory
How to Survive the End of the Universe. Kaku, Michio. Discover. Dec2004, Vol. 25 Issue 12, p46-53
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: