University of Warsaw, Faculty of Physics - Central Authentication System
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Physics (1st level); elective courses (course group defined by Faculty of Physics)

Faculty: Faculty of Physics Courses displayed below are part of group defined by this faculty, but this faculty is not necessarily the one that organizes these courses. Read Help for more information on this subject.
Course group: Physics (1st level); elective courses
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2024Z - Winter semester 2024/25
2024L - Summer semester 2024/25
2025Z - Winter semester 2025/26
(there could be semester, trimester or one-year classes) 		Actions
2024Z 2024L 2025Z
1100-IAP
n/a n/a
Classes
Summer semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

This course will provide students with a foundation for atmospheric physics studies. The physics governing atmospheric processes will be expressed in form of math-formulas and linked to surrounding environment. Focus on basic theory of atmospheric physics with strong component on atmospheric observations and importance of atmospheric modelling.

The course is targeting primarily intermediate-advanced (II/III year) undergraduate students of 1st study cycle and graduate students (I year) of 2nd study cycle (geophysics: atmospheric physics).

This lecture is conducted given only in English. Consultations in Polish are possible.

 		Course page
1100-INE
n/a n/a
Classes
Winter semester 2024/25
  • Lecture - 30 hours
Groups

Brief description

The lecture will focus on presenting the most important topics related to nuclear power.

 		Course page
1100-NWP
n/a n/a
Classes
Summer semester 2024/25
  • Classes - 45 hours
Groups

Brief description

(in Polish) Celem przedmiotu jest zaznajomienie studenta z wybranymi środowiskami i narzędziami poszerzającymi jego umiejętności programistyczne.

Course page
1100-PF
n/a
Classes
Winter semester 2024/25
  • Optional consultation - 90 hours
Summer semester 2024/25
  • Optional consultation - 90 hours
Groups

Brief description
No brief description found, go to course home page to get more information.
Course page
1100-VAC
n/a n/a
Classes
Winter semester 2024/25
  • Lecture - 30 hours
Groups

Brief description
No brief description found, go to course home page to get more information.
Course page
1100-3`An_IV n/a n/a
Classes
Summer semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

This is the fourth part (elective course) of the lectures on mathematical analysis addressed to the students more interested in theoretical physics or/and planning to study theoretical physics afterwards.

 		Course page
1100-3`SKwF n/a
Classes
Winter semester 2024/25
  • Classes - 60 hours
Winter semester 2025/26
  • Classes - 60 hours
Groups

Brief description

(in Polish) Kurs będzie nastawiony na umiejętności praktyczne i ma na celu wprowadzenie studentów do technik symulacji komputerowych w zastosowaniu do konkretnych problemów fizycznych. Zostaną omówione podstawowe metody modelowania układów fizycznych takie jak dynamika molekularna czy Monte Carlo, omówimy też elementarne modele sieciowe pozwalające opisywać procesy wzrostu, przejścia fazowe etc. Podstawowym celem kursu jest wyposażenie studentów w wystarczające narzędzia, tak aby mogli samodzielnie używać symulacji komputerowych do analizy rzeczywistych układów fizycznych. W ramach kursu odbywać się będą wykłady oraz zajęcia praktyczne w laboratorium komputerowym.

 		Course page
1100-GER n/a n/a
Classes
Summer semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

(in Polish) Zajęcia mają na celu zapoznanie studentów fizyki (nauk przyrodniczych) z podstawowymi pojęciami i twierdzeniami elementarnej geometrii różniczkowej, używanej np. w mechanice i teorii pola.

 		Course page
1100-GR n/a
Classes
Winter semester 2024/25
  • Classes - 30 hours
  • Lecture - 45 hours
Winter semester 2025/26
  • Classes - 30 hours
  • Lecture - 45 hours
Groups

Brief description

Course plan:

1. Euclidean and Minkowski spaces.

2. Basics of differential geometry.

3. Formulation of General Relativity.

4. Weak gravitational fields.

5. Schwarzschild spacetime.

6. The simplest cosmological models.

 		Course page
1100-2`TG2 n/a n/a
Classes
Summer semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

This course is intended to describe advanced topics in the theory of Lie groups and algebras and their applications. Students familiar with the material of the "Group theory I" course are invited, however the knowledge of that course is recommended but not required.

 		Course page
1100-TGF n/a n/a
Classes
Summer semester 2024/25
  • Classes - 45 hours
  • Lecture - 45 hours
Groups

Brief description
No brief description found, go to course home page to get more information.
Course page
1100-4HaE n/a
Classes
Winter semester 2024/25
  • Classes - 45 hours
  • Lecture - 45 hours
Winter semester 2025/26
  • Classes - 45 hours
  • Lecture - 45 hours
Groups

Brief description

(in Polish) The theoretical framework known as hydrodynamics and elasticity provides a powerful and complete description of our world at macroscopic scales (i.e, at large scales and long times compared to the molecular scales). The macroscopic dynamics of a variety of complex systems, such as biological and soft materials, atmospheric clouds, and the crust of the Earth, poses a formidable challenge for theoretical modeling, in which knowledge of classical hydrodynamics and elasticity is a major prerequisite.

This course introduces the basic equations of hydrodynamics and elasticity and

methods of their solution.

• We discuss the physics of everyday phenomena

• We provide a uniform mathematical framework to describe flow and deformation

• We show numerous real-life applications and examples

 		Course page
1101-337 n/a n/a
Classes
Summer semester 2024/25
  • Lecture - 30 hours
Groups

Brief description

The course is focused on ideas and problems of contemporary particle physics.

 		Course page
1100-WEJ n/a
Classes
Winter semester 2024/25
  • Lecture - 30 hours
Winter semester 2025/26
  • Lecture - 30 hours
Groups

Brief description

(in Polish) Celem wykładu jest prezentacja najważniejszych tematów związanych z energetyką jądrową, która mierzy się z wieloma wyzwaniami, jak bezpieczeństwo pracy elektrowni, postępowanie z wypalonym paliwem jądrowym, ekonomia.

 		Course page
1100-3003 n/a
Classes
Winter semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Winter semester 2025/26
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

The course introduces students to basis of atomic molecular and crystal physics as well as to physics of interaction of these objects with electromagnetic radiation and the methods of their investigation.

 		Course page
1102-341 n/a
Classes
Winter semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Winter semester 2025/26
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

First course on quantum mechanics supports tools for a theoretical description of one-particle quantum systems. Many important problems encountered in physics require understanding of quantum systems consisting of many particles, with strongly correlated constituents.

 		Course page
1100-3002 n/a
Classes
Winter semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Winter semester 2025/26
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

The lectures are an introduction to nuclear and elementary particle physics.

 		Course page
1100-2`LFT n/a
Classes
Winter semester 2024/25
  • Lab - 30 hours
Winter semester 2025/26
  • Lab - 30 hours
Groups

Brief description

This course is devoted to scientific calculations carried out on the basis of original papers in theoretical physics. Sessions will take place in the computer lab and the participants will use the program Mathematica.

 		Course page
1100-MAF n/a n/a
Classes
Winter semester 2025/26
  • Lecture - 30 hours
Groups

Brief description
No brief description found, go to course home page to get more information.
Course page
1100-2`PMK n/a n/a
Classes
Summer semester 2024/25
  • Lab - 45 hours
Groups

Brief description

The course places its emphasis to control devices with computers. It will incorporate the state-of-the-art microcontrollers' cores of AVR and ARM families. We will gear to the inte-gration of hardware modules to construct embedded systems, and the programming mod-els and characteristics of various input/output interfaces. High-level C/C++ languages will be chosen to meet computation, resource, and software development requirements.

 		Course page
1100-NZT n/a n/a
Classes
Summer semester 2024/25
  • Lecture - 15 hours
Groups

Brief description

The lecture will be conducted by Prof. Kang-Wook Cho (KINGS, Korea) from April 23 to April 29, from 3.15 pm to 6:00 pm

This course explores diverse net-zero technologies, encompassing renewable resources, energy usage, and SMR, along with the evolving requirements for integrating them into power grids.

Course page
1100-3`MNum n/a n/a
Classes
Summer semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

The course will be focused on basic numerical methods used in scientific computer aided computations.

 		Course page
1101-212 n/a n/a
Classes
Summer semester 2024/25
  • Lecture - 30 hours
Groups

Brief description

In this lecture I try to present problems that are actually investigated by physicist working on the field of solid state physics.

 		Course page
1100-3009
Classes
Winter semester 2024/25
  • Lab - 100 hours
Summer semester 2024/25
  • Lab - 100 hours
Winter semester 2025/26
  • Lab - 100 hours
Groups

Brief description

The main goal of the Laboratory is to introduce students to the experimental methods used in various branches of physics. Version B - 2 exercises.

 		Course page
1100-3010
Classes
Winter semester 2024/25
  • Lab - 50 hours
Summer semester 2024/25
  • Lab - 50 hours
Winter semester 2025/26
  • Lab - 50 hours
Groups

Brief description

The main goal of the Laboratory is to introduce students to the experimental methods used in various branches of physics. Version D - 1 exercise.

 		Course page
1100-FZJA n/a n/a
Classes
Summer semester 2024/25
  • Lecture - 30 hours
Groups

Brief description

(in Polish) Wykład jest ogólnym wprowadzeniem pojęciowym w świat zderzeń jąder atomowych, ze szczególnym uwzględnieniem energii wiązki w przedziale kilkadziesiąt MeV/nukleon - kilka GeV/nukleon, czyli opisu potencjałowego i hadronowego zderzeń.

Course page
1100-2`FPK n/a
Classes
Winter semester 2024/25
  • Lecture - 30 hours
Winter semester 2025/26
  • Lecture - 30 hours
Groups

Brief description

Program

The goal of this lecture is to build in the student basic physical understanding of atmospheric phenomena which govern weather and climate,

 		Course page
1103-4`Planet n/a n/a
Classes
Summer semester 2024/25
  • Classes - 30 hours
  • Lecture - 30 hours
Groups

Brief description

The course presents physics of the Solar System bodies (planets, satellites, comets, asteroids, small bodies) including results of recent researches.

 		Course page
1100-3`KKwSF n/a
Classes
Winter semester 2024/25
  • Lecture - 30 hours
Winter semester 2025/26
  • Lecture - 30 hours
Groups

Brief description

During the lecture, the physics of the light-matte coupling will be discussed, with a particular attention to the issue of coupling of semiconductor Quantum Dot to the optical mode of a microcavity.

 		Course page
1100-KPE n/a n/a
Classes
Summer semester 2024/25
  • Lecture - 30 hours
Groups

Brief description

(in Polish) Celem wykładu jest wprowadzenie podstawowych pojęć dotyczących fizyki półprzewodników, mechanizmów przewodnictwa elektrycznego i przejść optycznych, a w dalszej części - wykorzystanie tych informacji do omówienia działania podstawowych elementów elektronicznych, głównie tranzystorów polowych i diod świecących.

Course page
ul. Pasteura 5, 02-093 Warszawa tel: +48 22 5532 000 https://www.fuw.edu.pl/ contact accessibility statement site map USOSweb 7.1.2.0-7 (2025-06-25)