dr hab. inż. Leszek Piotrowski
Employment
- Head of Section at Division of Magnetic Properties of Materials
- Associate professor at Institute of Nanotechnology and Materials Engineering
e-Learning courses
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Fizyczne Metody Badań Materiałów II 2022
Fizyczne podstawy Metod Badań Nieniszczących stosowanych w przemyśle. Efekt Barkhausena, prądy wirowe, pole magnetyczne rozproszone, impulsy magnetostrykcyjne, technika ultradźwiękowa, termowizja. Podstawy defektoskopii, nieniszczące techniki badania struktury, wyznaczanie rozkładu naprężenia.
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Informacje o inżynierii materiałowej dla inżynierii materiałowej
Informacje
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Fizyczne Metody Badań Materiałów II Laboratorium
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Magnetism from fundamentals to spintronics 22/23
1. Basic magnetic quantities2. Magnetism of atoms and molecules, atoms in external magnetic fields3. Solid state magnetism, types of magnetic materials (dia-, para-, and ferromagnetism)4. Ferromagnetism and domain structures5. Magnetism of small particles, single domain particles (StonerWohlfarth model), thin films6. Experimental techniques of magnetic properties and magnetisation state determination. Domain structurevisualisation...
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Wybrane zagadnienia nanotechnologii 2023
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Physical testing methods of materials
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[IMa] Materials technologies - 2024/25
{mlang pl} Dyscyplina: inżynieria materiałowa Zajęcia obowiązkowe dla doktorantów I roku Prowadzący: dr hab. inż. Sebastian Molin, dr hab. inż. Jacek Ryl, dr hab. inż. Robert Bogdanowicz, dr hab. inż. Beata Bochentyn, dr hab. inż. Aleksandra Mielewczyk-Gryń, dr hab. inż. Leszek Piotrowski, prof. Maria Gazda - koordynator Liczba godzin: 15 Forma zajęć: wykład/seminarium {mlang} {mlang en} Discipline: materials engineering Obligatory...
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Metody numeryczne w środowisku LabView
Zaawansowane techniki obliczeniowe w LabVIEW
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Automatyzacja Procesu Pomiarowego 2023
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Surface Science - 2021/2022
The goal of the subject is the presentation of basic problems resulting from he existence of interfacebetween material objects and its surroundings. Discussion of the consequences arising from the existenceof surface energy. Analysis of possible applications of surface phenomena in technology. Understanding ofproblems and benefits resulting from decreasing dimensions of objects with the special emphasis on thesemiconductor band...
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Wybrane zagadnienia nanotechnologii 2022
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Fizykochemia Powierzchni - 22/23
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Nowe trendy w nauce o materiałach i nanotechnologii
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Magnetism - from fundamentals to spintronics
In preparation
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OPIS 2024
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Mechanika
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Fizyczne Metody Badań Materiałów
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Group project NT2-eng. 2024
Course for 2nd degree Students of Nanotechnology, sem. 3. The aim of the course is to prepare students for teamwork by implementing a project involving the analysis of the problem by the team, presenting a proposal to solve the problem, conducting research/tests and preparing a report.
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Fizykochemia Powierzchni - 23/24
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Magnetism: from fundamentals to spintronics 24/25
General magnetism
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Fizyka I (2024/2025)
Kurs przedmiotu Fizyka IBudownictwo, I stopnia. rok 1, semestr 1, rok akademicki 2024/2025
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Wybrane zagadnienia nanotechnologii 2024
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Magnetyczne właściwości nanostruktur i spintronika
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APP - 2024
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Metody doświadczalne z fizyki 2023/2024
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Magnetyczne właściwości nanostruktur i spintronika 23/24
Student poznaje materiały o właściwościach magnetycznych oraz prawa opisujące właściwości magnetyczne materiałów w skali makro, mikro i w skali nano. Student poznaje w szczególności metody badań tych właściwości oraz zasady wykorzystania materiałów magnetycznych w nauce i w technice. Student poznaje też zagadnienia dotyczące spintroniki w zakresie metod oddziaływania na spin i wykorzystywania tych metod dla wykorzystywania spinów...
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Fizykochemia Powierzchni - 2024/25
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Fizyczne metody badań materiałów II
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Surface Science - 2023/2024
The course is not a full time lecture but on the consultation/handouts. The consulations are held every two weeks. The course is based on the Springer textbook: Surface Science An Introduction Downloadable at: https://link.springer.com/book/10.1007/978-3-662-05179-5 (PG network or vpn access) The goal of the subject is the presentation of basic problems resulting from he existence of interfacebetween material objects...
Conducted classes
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Surface science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Nieniszczące techniki badań materiałów
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Functional materials for renewable energy
Field of study: Materials Engineering
Specialization: Functional materials for renewable energy
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Nieniszczące metody badań materiałów
Faculty of Mechanical Engineering and Ship TechnologyField of study: Materials Engineering
Field of study: Materials Engineering
Field of study: Materials Engineering
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: New Materials Design
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Magnetyczne właściwości nanostruktur i spintronika
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Surface science
Faculty of Applied Physics and Mathematics
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology (joint Master's double-degree program)
Specialization: Condensed Mather Physics and Nanotechnology
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology (joint Master's double-degree program)
Specialization: Condensed Mather Physics and Nanotechnology
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanomaterials for Power Engineering
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Surface science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
Field of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Surface science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanomaterials for Power Engineering
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Surface science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanomaterials for Power Engineering
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Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and Mathematics -
Magnetism: from fundamentals to spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanostructures and computer simulations in material science
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanomaterials for Power Engineering
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Diploma/Final Project II
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
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Diploma/Final Project II
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Magnetic properties of nanostructures and spintronics
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
Specialization: Nanomaterials and Functional Nanostructures
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
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Physics
Faculty of Electrical and Control EngineeringField of study: Electrical Engineering
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Advanced Engineering of Functional Materials
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Dyplom
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Physics II
Faculty of Applied Physics and MathematicsField of study: Nanotechnology
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Diploma laboratory
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Diploma/Final Project
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Engineering project
Faculty of Applied Physics and MathematicsField of study: Technical Physics
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Diploma seminar
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Technical Physics
Specialization: Nanotechnology
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Dyplom
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Engineering project
Faculty of Applied Physics and MathematicsField of study: Technical Physics
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Physics
Faculty of Ocean Engineering and Ship TechnologyField of study: Ocean Engineering
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Physics
Faculty of Ocean Engineering and Ship TechnologyField of study: Ocean Engineering
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Materials Engineering
Specialization: Engineering of Functional Materials
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Surface Science
Faculty of Applied Physics and MathematicsField of study: Technical Physics
Specialization: Nanotechnology
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