Study Programme of the Master of Teaching: Physics
2024-2025
Part 1
Compulsory module Physics
24 ECTS-credits
Atom and Molecule Physics
Mathematical Methods in Theoretical Physics
Skills in Experiment-based Teaching of Physics
Computer-controlled Experiments and Data Acquisition
Choose the 'in-school training: completion" course of your second teaching methodology. If you did not choose a second teaching methodology you choose "In-school training completion 2 physics"
History of Science and Society
Electives in Physics
Choose for 9 ECTS-credits from the list below.
Advanced Magnetic Resonance
Academic Literacies for Scientists
Biomedical Imaging Techniques
Finite Difference Methods and Financial Mathematics
Experimental Techniques in Particle Physics
- Steven Lowette
Number Theory
Advanced Quantum Mechanics
Measure Theory
Microscopy and Spectroscopy of Nanosystems
Physics of Low-Dimensional Systems
Plasma Modelling
Superconductivity and Superfluidity
Seminar Professional Knowledge in Mathematics
Accelerator Physics
Advanced Electron Microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biosensors and Bioelectronics
- Jeroen Lammertyn
Computational Physics
Device Physics
Digital Signal and Image Processing
Iterative Methods for Linear Systems
Advanced X-ray (Micro)tomography
Philosophy of Science
Quantum Field Theory
Quantum Many-body Theory of the Solid State
Statistical and Mathematical Physics
Surface Physics
Symmetry in Physics
Theory and Practice of Finite Elements Methods
Theory of Fundamental Interactions
Part 2
Classroom Management
School, Policy and Society
Powerful Learning Environments
Teaching Methodology Physics with Practice Sessions
Teaching Methodology General Subjects for Technical and Vocational Education with Practice Sessions
Profiling Course with Practical Exercises: STEM
Teaching Methodology Mathematics with Practice Sessions
In school/company training: expertise
If you have chosen two teaching methodologies, choose "In-school training: specialization". If you have chosen one teaching methodology and the profiling course STEM, choose "In-school/company training: expertise STEM".
In-school Training: Specialization
In-school/Company Training: Expertise STEM
In-school Training: Completion Physics with Supervision
In-school Training: Completion Physics 2 with Supervision
In-school Training: Completion Mathematics with Supervision
Cognitive and Learning Processes
Student Counselling
School in a Super Diverse Society
Cognitive and Learning Processes
Student Counselling
School in a Super Diverse Society
Master's Thesis Part I: Methodological Seminars
Master's Thesis Part II: Dissertation
Master's Thesis Part III: Practical Case (1st Sem + 2nd Sem)
- - NNB
- Annick De Vylder
2023-2024
Part 1
Compulsory module Physics
24 ECTS-credits
Atom and Molecule Physics
Mathematical Methods in Theoretical Physics
Skills in Experiment-based Teaching of Physics
Computer-controlled Experiments and Data Acquisition
Choose the 'in-school training: completion" course of your second teaching methodology. If you did not choose a second teaching methodology you choose "In-school training completion 2 physics"
History of Science and Society
Electives in Physics
Choose for 9 ECTS-credits from the list below.
Advanced Magnetic Resonance
Academic Literacies for Scientists
Biomedical Imaging Techniques
Finite Difference Methods and Financial Mathematics
Experimental Techniques in Particle Physics
- Albert De Roeck
- Steven Lowette
Number Theory
Advanced Quantum Mechanics
Measure Theory
Microscopy and Spectroscopy of Nanosystems
- Thomas Altantzis
- Sofie Cambré
- Joke Hadermann
Physics of Low-Dimensional Systems
Plasma Modelling
Superconductivity and Superfluidity
Seminar Professional Knowledge in Mathematics
Accelerator Physics
Advanced Electron Microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biosensors and Bioelectronics
- Jeroen Lammertyn
Computational Physics
Device Physics
Digital Signal and Image Processing
Iterative Methods for Linear Systems
Advanced X-ray (Micro)tomography
Philosophy of Science
Quantum Field Theory
Quantum Many-body Theory of the Solid State
Statistical and Mathematical Physics
Surface Physics
Symmetry in Physics
Theory and Practice of Finite Elements Methods
Theory of Fundamental Interactions
Part 2
Classroom Management
School, Policy and Society
Powerful Learning Environments
Teaching Methodology Physics with Practice Sessions
Teaching Methodology General Subjects for Technical and Vocational Education with Practice Sessions
Profiling Course with Practical Exercises: STEM
Teaching Methodology Mathematics with Practice Sessions
In school/company training: expertise
If you have chosen two teaching methodologies, choose "In-school training: specialization". If you have chosen one teaching methodology and the profiling course STEM, choose "In-school/company training: expertise STEM".
In-school Training: Specialization
In-school/Company Training: Expertise STEM
In-school Training: Completion Physics with Supervision
In-school Training: Completion Physics 2 with Supervision
In-school Training: Completion Mathematics with Supervision
Cognitive and Learning Processes
Student Counselling
School in a Super Diverse Society
Cognitive and Learning Processes
Student Counselling
School in a Super Diverse Society
Master's Thesis Part I: Methodological Seminars
Master's Thesis Part II: Dissertation
Master's Thesis Part III: Practical Case (1st Sem + 2nd Sem)
- - NNB
- Annick De Vylder
2022-2023
Part 1
Compulsory module Physics
24 ECTS-credits
Atom and Molecule Physics
Mathematical methods in theoretical physics
Skills in experiment-based teaching of physics
Computer-controlled experiments and data acquisition
Electives in Physics
Choose for 9 ECTS-credits from the list below.
Academic Literacies for Scientists
Biomedical imaging techniques
Finite difference methods and financial mathematics
Experimental Techniques in Particle Physics
- Albert De Roeck
- Steven Lowette
Number Theory
Advanced Quantum Mechanics
Measure theory
Microscopy and spectroscopy of nanosystems
- Thomas Altantzis
- Sofie Cambré
- Joke Hadermann
Physics of low-dimensional systems
Plasma modelling
Advanced magnetic resonance
Superconductivity and superfluidity
Seminar professional knowledge in mathematics
Accelerator physics
Advanced electron microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biosensors and bioelectronics
- Jeroen Lammertyn
Computational physics
Device physics
Digital signal and image processing
Iterative methods for linear systems
Reconstruction techniques in medical imaging
Philosophy of science
Quantum Field Theory
Quantum many-body theory of the solid state
Statistical and mathematical physics
Surface physics
Symmetry in physics
Theory and practice of finite elements methods
Theory of Fundamental Interactions
X-ray (micro)tomography
Teaching component
If you choose two teaching methodologies you take "Powerful learning environments". If you choose one teaching methodology and you haven't taken "Powerful learning environments" in your preparatory programme, you take this in the Master.
Classroom management
School, policy and society
Powerful learning environments
Teaching methodology
Choose 'Teaching methodology physics with practice sessions'. Choose another teaching methodology from the list below or choose the profiling course STEM.
Teaching methodology physics with practice sessions
Teaching methodology general subjects for technical and vocational education with practice sessions
- Jan T'Sas
- Maarten De Beucker
- Martine Mol
- Eva Verlinden
Profiling course with practical exercises: STEM
Teaching methodology mathematics with practice sessions
In-school training
Choose 'In-school training: completion physics and choose the 'in-school training: completion" course of your second teaching methodology. If you did not choose a second teaching methodology you choose "In-school training completion physics 2"
In-school training: completion physics with supervision
In-school training: completion physics 2 with supervision
In-school training: completion general subjects for technical and vocational education
- Jan T'Sas
- Maarten De Beucker
- Martine Mol
- Eva Verlinden
In-school training: completion mathematics with supervision
Part 2
Core course for all majors
6 ECTS-credits
History of science and society
Electives Physics
Choose at least 21 ECTS-credits from the list below.
Academic Literacies for Scientists
Biomedical imaging techniques
Finite difference methods and financial mathematics
Experimental Techniques in Particle Physics
- Albert De Roeck
- Steven Lowette
Number Theory
Advanced Quantum Mechanics
Measure theory
Microscopy and spectroscopy of nanosystems
- Thomas Altantzis
- Sofie Cambré
- Joke Hadermann
Physics of low-dimensional systems
Plasma modelling
Advanced magnetic resonance
Superconductivity and superfluidity
Seminar professional knowledge in mathematics
Accelerator physics
Advanced electron microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biosensors and bioelectronics
- Jeroen Lammertyn
Computational physics
Device physics
Digital signal and image processing
Iterative methods for linear systems
Reconstruction techniques in medical imaging
Philosophy of science
Quantum Field Theory
Quantum many-body theory of the solid state
Statistical and mathematical physics
Surface physics
Symmetry in physics
Theory and practice of finite elements methods
Theory of Fundamental Interactions
X-ray (micro)tomography
In school/company training: expertise
If you have chosen two teaching methodologies, choose "In-school training: specialization". If you have chosen one teaching methodology and the profiling course STEM, choose "In-school/company training: expertise STEM".
In-school training: specialization
In-school/company training: expertise STEM
Teaching component - profiling elective
Choose 3 ECTS-credits from this list if you have taken one teaching methodology and the profiling course STEM.
Cognitive and learning processes
Student counselling
School in a superdiverse society
Cognitive and learning processes
Student counselling
School in a super diverse society
Master thesis
24 ECTS-credits
Master's thesis part I: methodological seminars
Master's thesis part II: dissertation
Master's thesis part III: Practical case (1st sem + 2nd sem)
- - NNB
- Annick De Vylder
2021-2022
Part 1
Compulsory module Physics
24 ECTS-credits
Atom and Molecule Physics
Mathematical methods in theoretical physics
Skills in experiment-based teaching of physics
Computer-controlled experiments and data acquisition
Electives in Physics
Choose for 9 ECTS-credits from the list below.
Academic Literacies for Scientists
Biomedical imaging techniques
Finite difference methods and financial mathematics
Experimental Techniques in Particle Physics
- Albert De Roeck
- Steven Lowette
Number theory
Advanced Quantum Mechanics
Measure theory
Microscopy and spectroscopy of nanosystems
- Thomas Altantzis
- Sofie Cambré
- Joke Hadermann
Physics of low-dimensional systems
Plasma modelling
Reconstruction techniques in medical imaging
Superconductivity and superfluidity
Seminar professional knowledge in mathematics
Accelerator physics
Advanced electron microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biosensors and bioelectronics
- Jeroen Lammertyn
Computational physics
Device physics
Digital signal and image processing
Iterative methods for linear systems
Magnetic resonance of bio-molecules
Philosophy of science
- Bert Leuridan
- Raoul Gervais
Quantum Field Theory
Quantum many-body theory of the solid state
Statistical and mathematical physics
Surface physics
Symmetry in physics
Theory and practice of finite elements methods
Theory of Fundamental Interactions
X-ray (micro)tomography
Teaching component year 1
Educational Science 2: Learning and Living Environments (1ste semester)
Educational Science 3: Educational Technology and Innovation
Educational Science 4: School and Society
Teaching methodology
Choose 'Teaching methodology physics with practice sessions'. Choose another teaching methodology from the list below or choose the profiling course STEM.
Teaching methodology physics with practice sessions
Teaching methodology general subjects for technical and vocational education with practice sessions
- Jan T'Sas
- Maarten De Beucker
- Martine Mol
- Eva Verlinden
Profiling course with practical exercises: STEM
- Annie Pinxten
- Leen Goovaerts
- Ellen Vandervieren
Teaching methodology mathematics with practice sessions
In-school training
Choose 'In-school training: completion physics and choose the 'in-school training: completion" course of your second teaching methodology. If you did not choose a second teaching methodology you choose "In-school training completion 2 physics"
In-school training: completion 1 physics
In-school training: completion 2 physics
In-school training: completion 1 general subjects for technical and vocational education
- Jan T'Sas
- Maarten De Beucker
- Martine Mol
- Eva Verlinden
In-school training: completion 1 mathematics
Core course for all majors
6 credits
History of science and society
Electives Physics
Choose at least 21 credits.
Academic Literacies for Scientists
Biomedical imaging techniques
Finite difference methods and financial mathematics
Experimental Techniques in Particle Physics
- Albert De Roeck
- Steven Lowette
Number theory
Advanced Quantum Mechanics
Measure theory
Microscopy and spectroscopy of nanosystems
- Thomas Altantzis
- Sofie Cambré
- Joke Hadermann
Physics of low-dimensional systems
Plasma modelling
Reconstruction techniques in medical imaging
Superconductivity and superfluidity
Seminar professional knowledge in mathematics
Accelerator physics
Advanced electron microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biosensors and bioelectronics
- Jeroen Lammertyn
Computational physics
Device physics
Digital signal and image processing
Iterative methods for linear systems
Magnetic resonance of bio-molecules
Philosophy of science
- Bert Leuridan
- Raoul Gervais
Quantum Field Theory
Quantum many-body theory of the solid state
Statistical and mathematical physics
Surface physics
Symmetry in physics
Theory and practice of finite elements methods
Theory of Fundamental Interactions
X-ray (micro)tomography
In school/company training: expertise
5 credits
In-school/company training: expertise
Master thesis
24 credits
Master's thesis part I: methodological seminars
Master's thesis part II: dissertation
Master's thesis part III: Practical case (1st sem + 2nd sem)
- - NNB
- Annick De Vylder
2020-2021
2-year Model Path
Teaching component year 1
You follow 31 ECTS-credits.
Choose 'Teaching methodology physics with practice sessions'. Choose another teaching methodology from the list below or choose the profiling course STEM.
Teaching methodology physics with practice sessions
Teaching methodology general subjects for technical and vocational education with practice sessions
Profiling course with practical exercises: STEM
- Leen Goovaerts
- Annie Pinxten
- Ellen Vandervieren
Teaching methodology mathematics with practice sessions
Choose 'In-school training: completion physics and choose the 'in-school training: completion" course of your second teaching methodology. If you did not choose a second teaching methodology you choose "In-school training completion 2 physics"
In-school training: completion 1 physics
In-school training: completion 2 physics
In-school training: completion 1 general subjects for technical and vocational education
In-school training: completion 1 mathematics
Teaching component: year 2
"In-school/company training: expertise" is compulsory in the second year.
In-school/company training: expertise
Compulsory stem course for all majors
6 ECTS-credits to be taken in the second year of your programme.
History of science and society
Compulsory module Physics
24 ECTS-credits
Atom and Molecule Physics
Computer-controlled experiments and data acquisition
Skills in experiment-based teaching of physics
Mathematical methods in theoretical physics
Electives in Physics
Choose for 30 ECTS-credits from the list below.
Academic Literacies for Scientists
Accelerator physics
Advanced electron microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biomedical imaging techniques
Biosensors and bioelectronics
- Jeroen Lammertyn
Computational physics
Device physics
Digital signal and image processing
Finite difference methods and financial mathematics
Experimental Techniques in Particle Physics
- Albert De Roeck
- Steven Lowette
Number theory
Advanced Quantum Mechanics
Iterative methods for linear systems
Measure theory
- Werner Peeters
- Wouter Van Den Haute
Magnetic resonance of bio-molecules
Microscopy and spectroscopy of nanosystems
- Thomas Altantzis
- Sofie Cambré
- Joke Hadermann
Numerical Optimisation
Philosophy of science
- Bert Leuridan
- Raoul Gervais
Physics of low-dimensional systems
Plasma modelling
Quantum Field Theory
Reconstruction techniques in medical imaging
Seminar professional knowledge in mathematics
Solid state physics
Statistical and mathematical physics
Superconductivity and superfluidity
Surface physics
Symmetry in physics
Theory and practice of finite elements methods
Theory of Fundamental Interactions
X-ray (micro)tomography
Master's thesis
24 ECTS-credits to be taken in the second year of your programme.
Master's thesis partim I: methodological seminars
Master's thesis partim III: Practical case (1st sem + 2nd sem)
- - NNB
- Annick De Vylder
2019-2020
2-year Model Path
Teaching component year 1
You follow 31 ECTS-credits.
Concepts in Education 1
Concepts in Education 1
Concepts in Education 2
Concepts in Education 2
Choose 'Teaching methodology physics with practice sessions'. Choose another teaching methodology from the list below or choose the profiling course STEM.
Teaching methodology biology with practice sessions
- Annie Pinxten
- Johan Rock
- Liesbeth Spithoven
- Sabine Van Roose
Teaching methodology chemistry with practice sessions
Teaching methodology engineering and technology with practice sessions
- Leen Goovaerts
- Wouter Delée
Teaching methodology physics with practice sessions
Teaching methodology computer science with practice sessions
Teaching methodology general subjects for technical and vocational education with practice sessions
- Paul Janssenswillen
- Gytha Burman
- Maarten De Beucker
- Sally Van Agtmael
Teaching methodology mathematics with practice sessions
Profiling course with practical exercises: STEM
- Leen Goovaerts
- Annie Pinxten
- Ellen Vandervieren
Choose 'In-school training: completion 1 physics'
In-school training: completion 1 biology
- Annie Pinxten
- Liesbeth Spithoven
- Sabine Van Roose
In-school training: completion 1 chemistry
In-school training: completion 1 engineering and technology
- Leen Goovaerts
- Wouter Delée
In-school training: completion 1 physics
In-school training: completion 1 computer science
In-school training: completion 1 mathematics
In-school training: completion 1 general subjects for technical and vocational education
- Paul Janssenswillen
- Gytha Burman
- Maarten De Beucker
- Sally Van Agtmael
Choose the 'in-school training: completion" course of your second teaching methodology. If you did not choose a second teaching methodology you choose "In-school training completion 2 physics"
In-school training: completion 2 biology
- Annie Pinxten
- Liesbeth Spithoven
- Sabine Van Roose
In-school training: completion 2 chemistry
In-school training: completion 2 engineering and technology
- Leen Goovaerts
- Wouter Delée
In-school training: completion 2 physics
In-school training: completion 2 computer science
In-school training: completion 2 mathematics
In-school training: completion 2 general subjects for technical and vocational education
- Paul Janssenswillen
- Gytha Burman
- Maarten De Beucker
- Sally Van Agtmael
Teaching component: year 2
"In-school/company training: expertise" is compulsory in the second year.
In-school/company training: expertise
Compulsory stem course for all majors
6 ECTS-credits to be taken in the second year of your programme.
History of science and society
Compulsory module Physics
24 ECTS-credits
Atom and Molecule Physics
Computer-controlled experiments and data acquisition
Skills in experiment-based teaching of physics
Mathematical methods in theoretical physics
Electives in Physics
Choose for 30 ECTS-credits from the list below.
Academic Literacies for Scientists
Accelerator physics
Advanced electron microscopy
General Topology
Artificial Neural Networks
Biomechanics
Biomedical imaging techniques
Biosensors and bioelectronics
- Jeroen Lammertyn
Computational physics
Device physics
Digital signal and image processing
Finite difference methods and financial mathematics
Electronic structure calculations
Experimental Techniques in Particle Physics
- Albert De Roeck
- Steven Lowette
Number theory
- Karim Johannes Becher
- - NNB
Advanced Quantum Mechanics
Iterative methods for linear systems
Measure theory
- Werner Peeters
- Wouter Van Den Haute
Magnetic resonance of bio-molecules
Microscopy and spectroscopy of nanosystems
- Thomas Altantzis
- Sara Bals
- Etienne Goovaerts
- Joke Hadermann
Numerical Optimisation
Philosophy of science
- Bert Leuridan
- Raoul Gervais
Physics of low-dimensional systems
Plasma modelling
Quantum Field Theory
Reconstruction techniques in medical imaging
Seminar professional knowledge in mathematics
Solid state physics
Statistical and mathematical physics
Superconductivity and superfluidity
Surface physics
Symmetry in physics
Theory and practice of finite elements methods
Theory of Fundamental Interactions
X-ray (micro)tomography
Master's thesis
24 ECTS-credits to be taken in the second year of your programme.
Master's thesis partim I: methodological seminars
Master's thesis partim II: dissertation (18 ECTS-credits)
- - NNB
- Annick De Vylder
Master's thesis partim III: Practical case (1st sem + 2nd sem)
- - NNB
- Annick De Vylder