Technical Physics > Renewable Energy Engineering
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Technical Physics

, first-cycle studies, Full-time studies, starting year 2023/2024

Semester: 1  (2023/2024 - winter)

ECTS W C L P S Credit
Subject Card
IT tools in the work of an engineer
3 - - 45 - - z
ECTS
3
Credit
assessment
Number of hours:
Laboratory
45 h
Download the subject card
Mechanics and heat
10 60 60 - - - e
ECTS
10
Credit
exam
Number of hours:
Lecture
60 h
Exercises
60 h
Download the subject card
Mathematical Analysis I
10 60 60 - - - e
ECTS
10
Credit
exam
Number of hours:
Lecture
60 h
Exercises
60 h
Download the subject card
Planning and analysis of experiment
3 15 15 - - - z
ECTS
3
Credit
assessment
Number of hours:
Lecture
15 h
Exercises
15 h
Download the subject card
Szkolenia
0 10 - - - - z/e
ECTS
0
Credit
-
Number of hours:
Lecture
10 h
Przedmioty w module:

Semester: 2  (2023/2024 - summer)

ECTS W C L P S Credit
Subject Card
Mathematical analysis II
6 30 30 - - - e
ECTS
6
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Linear algebra with geometry
5 30 30 - - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Programming languages
3 15 - 30 - - z
ECTS
3
Credit
assessment
Number of hours:
Lecture
15 h
Laboratory
30 h
Download the subject card
Chemistry
4 30 - 30 - - z
ECTS
4
Credit
assessment
Number of hours:
Lecture
30 h
Laboratory
30 h
Download the subject card
Electricity and magnetism
6 30 45 - - - e
ECTS
6
Credit
exam
Number of hours:
Lecture
30 h
Exercises
45 h
Download the subject card
Physics laboratory I (mechanics and heat)
4 - - 45 - - z
ECTS
4
Credit
assessment
Number of hours:
Laboratory
45 h
Download the subject card

Semester: 3  (2024/2025 - winter)

ECTS W C L P S Credit
Subject Card
Mathematical methods of physics and technics I
4 30 15 - - - z
ECTS
4
Credit
assessment
Number of hours:
Lecture
30 h
Exercises
15 h
Download the subject card
Waves and optics
5 30 30 - - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Differential equations in Physics and Technology
4 30 30 - - - z
ECTS
4
Credit
assessment
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Physics laboratory I (electricity and magnetism)
3 - - 45 - - z
ECTS
3
Credit
assessment
Number of hours:
Laboratory
45 h
Download the subject card
Introduction to modeling physical phenomena
3 15 - 15 15 - z
ECTS
3
Credit
assessment
Number of hours:
Lecture
15 h
Laboratory
15 h
Project
15 h
Download the subject card
2 - 45 - - - z/e
ECTS
2
Credit
-
Number of hours:
Exercises
45 h
Przedmioty w module:
0 - 30 - - - z/e

Subjects from Specialization: Renewable Energy Engineering

Physical basis of conversion and accumulation of energy
1 15 - - - - z
Environmental physics
2 30 - - - - z
ECTS
2
Credit
assessment
Number of hours:
Lecture
30 h
Download the subject card
Classical mechanics
5 30 30 - - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Engineering Drawing
1 - 15 - - - z
ECTS
1
Credit
assessment
Number of hours:
Exercises
15 h
Download the subject card

Semester: 4  (2024/2025 - summer)

ECTS W C L P S Credit
Subject Card
Introduction to electronics and electrotechnics
5 30 - 15 15 - z
ECTS
5
Credit
assessment
Number of hours:
Lecture
30 h
Laboratory
15 h
Project
15 h
Download the subject card
Introduction to numerical methods
4 30 - 30 - - z
ECTS
4
Credit
assessment
Number of hours:
Lecture
30 h
Laboratory
30 h
Download the subject card
Electrodynamics
5 30 30 - - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Foreign language II
2 - 45 - - - z/e
ECTS
2
Credit
-
Number of hours:
Exercises
45 h
Przedmioty w module:
0 - 30 - - - z/e
0 - 30 - - - z
ECTS
0
Credit
-
Number of hours:
Exercises
30 h
Przedmioty w module:
ECTS
0
Credit
assessment
Number of hours:
Exercises
30 h

Subjects from Specialization: Renewable Energy Engineering

Renewable energy sources
1 15 - - - - z
ECTS
1
Credit
assessment
Number of hours:
Lecture
15 h
Environmental physics laboratory
2 - - 30 - - z
ECTS
2
Credit
assessment
Number of hours:
Laboratory
30 h
Download the subject card
Vibrations and wave phenomena laboratory
2 - - 30 - - z
ECTS
2
Credit
assessment
Number of hours:
Laboratory
30 h
Download the subject card
Fundamentals of modern physics
5 30 30 - - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Mathematical methods of physics and technics II
4 30 30 - - - z
ECTS
4
Credit
assessment
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card

Semester: 5  (2025/2026 - winter)

ECTS W C L P S Credit
Subject Card
Foreign language IIi
2 - 30 - - - z/e
ECTS
2
Credit
-
Number of hours:
Exercises
30 h
Przedmioty w module:

Subjects from Specialization: Renewable Energy Engineering

Hydrogen power and fuel cells
1 15 - - - - z
ECTS
1
Credit
assessment
Number of hours:
Lecture
15 h
Energy conversion laboratory II
1 - - 15 - - z
ECTS
1
Credit
assessment
Number of hours:
Laboratory
15 h
Renewable energy seminar I
1 - - - - 15 z
ECTS
1
Credit
assessment
Number of hours:
Seminar
15 h
Electronic circuits
5 15 15 15 15 - z
ECTS
5
Credit
assessment
Number of hours:
Lecture
15 h
Exercises
15 h
Laboratory
15 h
Project
15 h
Energy conversion laboratory I
2 - - 15 - - z
ECTS
2
Credit
assessment
Number of hours:
Laboratory
15 h
Quantum mechanics
5 30 30 - - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Vacuum technology
2 15 - 15 - - z
ECTS
2
Credit
assessment
Number of hours:
Lecture
15 h
Laboratory
15 h
Physics of semiconductor devices
5 30 30 - - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Download the subject card
Optics and laser technique
4 15 15 30 - - z
ECTS
4
Credit
assessment
Number of hours:
Lecture
15 h
Exercises
15 h
Laboratory
30 h
Laboratory of the basics of modern physics
2 - - 30 - - z
ECTS
2
Credit
assessment
Number of hours:
Laboratory
30 h

Semester: 6  (2025/2026 - summer)

ECTS W C L P S Credit
Subject Card

Subjects from Specialization: Renewable Energy Engineering

Photovoltaic systems
2 15 - - 15 - z
ECTS
2
Credit
assessment
Number of hours:
Lecture
15 h
Project
15 h
Photovoltaic cells
2 15 - 15 - - z
ECTS
2
Credit
assessment
Number of hours:
Lecture
15 h
Laboratory
15 h
Hydropower and wind power plants
2 30 - - - - z
ECTS
2
Credit
assessment
Number of hours:
Lecture
30 h
Renewable energy seminar II
1 - - - - 15 z
ECTS
1
Credit
assessment
Number of hours:
Seminar
15 h
Team project
1 - - - 15 - z
ECTS
1
Credit
assessment
Number of hours:
Project
15 h
Download the subject card
Engineering diploma project
1 - - - 15 - z
ECTS
1
Credit
assessment
Number of hours:
Project
15 h
Basics of molecular electronics
3 30 15 - - - e
ECTS
3
Credit
exam
Number of hours:
Lecture
30 h
Exercises
15 h
Automation of the measurement process
3 15 - 15 15 - z
ECTS
3
Credit
assessment
Number of hours:
Lecture
15 h
Laboratory
15 h
Project
15 h
Atomic and molecular physics
5 30 30 15 - - e
ECTS
5
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h
Laboratory
15 h
Heat flows
4 30 - 15 15 - z
ECTS
4
Credit
assessment
Number of hours:
Lecture
30 h
Laboratory
15 h
Project
15 h
Atomic and nuclear physics
2 15 15 - - - z
ECTS
2
Credit
assessment
Number of hours:
Lecture
15 h
Exercises
15 h
Thermodynamics and statistical physics
4 30 30 - - - e
ECTS
4
Credit
exam
Number of hours:
Lecture
30 h
Exercises
30 h

Semester: 7  (2026/2027 - winter)

ECTS W C L P S Credit
Subject Card
Profesional practice
6 - - - - - z
ECTS
6
Credit
assessment
Number of hours:
Download the subject card

Subjects from Specialization: Renewable Energy Engineering

Nuclear Power
1 15 - - - - z
ECTS
1
Credit
assessment
Number of hours:
Lecture
15 h
Chemical power sources
2 15 - 15 - - z
ECTS
2
Credit
assessment
Number of hours:
Lecture
15 h
Laboratory
15 h
Radiation detectors
1 15 - - - - z
ECTS
1
Credit
assessment
Number of hours:
Lecture
15 h
Diploma seminar
4 - - - - 30 z
ECTS
4
Credit
assessment
Number of hours:
Seminar
30 h
Diploma Thesis
16 - - - 30 - z
ECTS
16
Credit
assessment
Number of hours:
Project
30 h
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