dr hab. inż. Arkadiusz Żak
Employment
- Head of Department at Department of Biomechatronics
- Associate professor at Department of Biomechatronics
e-Learning courses
-
INŻYNIERIA MATERIAŁOWA [Niestacjonarne][2022/23]
Wykłady z przedmiotu inżynieria materiałowa (IM-NS) prowadzone są cyklicznie według planu zajęć. Zajęcia rozpoczynają się w piątki o godz. 19:45. Tematyka zajęć dotyczy podstawowych zagadnień oraz bieżących problemów inżynierii materiałowej, w szczególności: Budowy materii i wypływu na właściwości fizyczne Struktury krystalicznej oraz stopów metali Właściwości materiałów przewodzących Właściwości materiałów półprzewodnikowych Właściwości...
-
[IMe] Advanced numerical methods in mechanics
{mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący: K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}
-
TECHNOLOGIE WYSOKONAPIĘCIOWE [Niestacjonarne][2020/21]
-
ROBOTYKA I SYSTEMY MECHATRONIKI [2022/23]
-
[IMe] Advanced numerical methods in mechanics
{mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący: K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}
-
INŻYNIERIA MATERIAŁOWA [2021/22]
-
INŻYNIERIA MATERIAŁOWA [2022/23]
Wykłady z przedmiotu inżynieria materiałowa (IM) prowadzone są co tydzień. Zajęcia rozpoczynają się w poniedziałki o godz. 10:00. Tematyka zajęć dotyczy podstawowych zagadnień oraz bieżących problemów inżynierii materiałowej, w szczególności: Budowy materii i wypływu na właściwości fizyczne Struktury krystalicznej oraz stopów metali Właściwości materiałów przewodzących Właściwości materiałów półprzewodnikowych Właściwości...
-
PODSTAWY INŻYNIERII MATERIAŁOWEJ [2021/22]
-
PODSTAWY INŻYNIERII MATERIAŁOWEJ [2022/23]
Wykłady dotyczą podstaw inżynierii materiałowej (PIM) i z tego powodu obejmują podstawowe, wprowadzające informacje dotyczące własności materiałów. Zajęcia odbywają się środy i rozpoczynają punktualnie o godz. 10:15. W szczególności, w trakcie zajęć omawiane są: Budowa materii i jej wpływ na własności fizyczne materiałów Własności materiałów przewodzących Własności materiałów półprzewodzących Własności materiałów dielektrycznych Własności...
-
INŻYNIERIA MATERIAŁOWA [Niestacjonarne][2021/22]
-
TECHNOLOGIE WYSOKONAPIĘCIOWE [ET][Niestacjonarne][2021/22]
-
[IMe] Advanced numerical methods in mechanics
{mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący: K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}
-
INŻYNIERIA MATERIAŁOWA [2023/24]
-
Komisja Programowa
-
Egzaminy dyplomowe
-
PODSTAWY INŻYNIERII MATERIAŁOWEJ [2023/24]
-
INŻYNIERIA MATERIAŁOWA [2019/20]
-
[IMe] Advanced numerical methods in mechanics 24/25
{mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący: K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}
-
INŻYNIERIA MATERIAŁOWA [2020/21]
-
MECHANIKA [ET][2024/25]
-
[IMe] Advanced numerical methods in mechanics
{mlang pl} Dyscyplina: inżynieria mechaniczna Zajęcia obowiązkowe dla doktorantów I i II roku Prowadzący: dr hab. inż. Krzysztof Tesch, prof. PG, dr hab. inż. Arkadiusz Żak, prof. PG Liczba godzin: 45 Forma zajęć: wykład {mlang} {mlang en} Discipline: mechanical engineering Obligatory course for 1st and 2nd-year PhD students Academic teachers: dr hab. inż. Krzysztof Tesch, prof. PG, dr hab. inż. Arkadiusz Żak, prof....
-
MECHANIKA [ARiSS][2023/24]
-
INŻYNIERIA MATERIAŁOWA [Niestacjonarne][2020/21]
-
Technika wysokich napięć [2019/20]
Studia stacjonarne, kierunek Elektrotechnika, stopień I, semestr 4 Dielektryki, procesy jonizacyjne w gazach, rodzaje wyładowań, ulot, wytrzymałość udarowa powietrza, wpływ rozkładu pola, biegunowości, symetrii, czasu i częstotliwości na wytrzymałość elektryczną gazu, wpływ warunków atmosferycznych, gazy sprężone. Ciecze izolacyjne i ich wytrzymałość, wpływ ciśnienia, temperatury, wilgotności, czasu i częstotliwości, rozkładu...
-
MECHANIKA [2023/24]
-
[IMe] Advanced numerical methods in mechanics
{mlang pl} Dyscyplina: IMe Zajęcia obowiązkowe dla doktorantów I roku Prowadzący: K. Tesch, A. Żak Liczba godzin: 45 Forma zajęć: wykład/laboratorium {mlang} {mlang en} Discipline: IMe Obligatory course for 1st year PhD students Academic teacher: K. Tesch, A. Żak Total hours of training: 45 teaching hours Course type: lecture/Laboratories {mlang}
-
SEMINARIUM DYPLOMOWE [ET][Niestacjonarne][2020/21]
-
INŻYNIERIA MATERIAŁOWA [ET][2024/25]
Conducted classes
-
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
-
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
-
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Pakiety MATLAB i Mathematica w obliczeniach inżynierskich
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
-
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
Pakiety MATLAB i Mathematica w obliczeniach inżynierskich
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Functional Materials
Doctoral SchoolDiscipline: automation, electronics, electrical engineering and space technologies
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
-
-
A short lecture on FEM
Faculty of Electrical and Control Engineering -
Pakiety MATLAB i Mathematica w obliczeniach inżynierskich
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
-
-
Introduction to advanced methods in engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
Functional materials
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Conversion and Utilization of Electric Energy
-
Functional materials
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Pakiety MATLAB i Mathematica w obliczeniach inżynierskich
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Introduction to advanced methods in engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Conversion and Utilization of Electric Energy
-
-
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automation, Robotics and Control Systems
Specialization: Robotics and Mechatronic Systems
-
Pakiety MATLAB i Mathematica w obliczeniach inżynierskich
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Exoskeleton ins Mechatronic Systems
Doctoral School
-
-
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Functional materials
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Functional materials
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Conversion and Utilization of Electric Energy
-
Introduction to advanced methods in engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Conversion and Utilization of Electric Energy
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
-
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Functional materials
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Functional materials
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Conversion and Utilization of Electric Energy
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
-
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Diploma Seminar
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
-
-
Team Project
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Diploma Seminar
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
-
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
High-Voltage Technologies
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
Specialization: Electric Power Engineering
-
Diploma Seminar
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
Introduction to advanced numerical methods in engineering
Chancellor -
EXOSKELETONS IN MECHATRONIC SYSTEMS
Faculty of Chemistry -
Exoskeletons in mechatronic systems
Faculty of Mechanical EngineeringDiscipline: Budowa i eksploatacja maszyn -WM
Discipline: Budowa i eksploatacja maszyn
-
Materials Engineering
Faculty of Electrical and Control Engineering -
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
-
-
Diploma Seminar
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Functional materials
Faculty of Applied Physics and MathematicsDiscipline: Physics
-
Diploma Workshop
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Materials Engineering
Faculty of Electrical and Control Engineering -
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Basics of Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Automatic Control and Robotics
Specialization: Robotics and Mechatronic Systems
-
Diploma Workshop
Faculty of Electrical and Control Engineering
-
-
-
Diploma Seminar
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Diploma Workshop
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
Materials Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
High Voltage Engineering
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
-
seen 4299 times