Multiphysics Problem Simulations

Type of study	Follow-up Master
Language of instruction	Czech
Code	480-4011/01
Abbreviation	SMMP
Course title	Multiphysics Problem Simulations
Credits	5
Coordinating department	Department of Physics
Course coordinator	doc. RNDr. Dalibor Ciprian, Ph.D.

Subject syllabus

1. Survey of modern methods used for multiphysics modeling
2. Formulation of applied physics problems using PDE
3. Introduction to multiphysics modeling systems
4. Typical boundary conditions and their implementation
5. COMSOL and MATLAB cooperation
6. Basic problems in electrostatics and magnetostatics
7. Low frequency electromagnetism
8. Basic problems concerning heat transferr
9. Basic problems in optics and electromagntic wave propagation
10. Structural mechanics problems
11. Fluid dynamics problems
12. Strategy of multiphysics models
13. Time dependent problems

E-learning

Consultation on demand through MS Teams

Literature

DE CAMPOS PEREIRA, A., et all: Modelling in Science and Engineering: A brief introduction to COMSOL Multiphysics, Independently published, 2019,

ZIMMERMAN, W.: Multiphysics modeling with finite element methods. World Scientific Pub Co Inc, 2006, ISBN 978-9812568434

EDSBERG, L.: Introduction to computation and modeling for differential equations. Wiley-Interscience, 2008,

Advised literature

REDDY J. N.: Introduction To Finite Element Method 4ed., McGraw Hill, 2020,

PRYOR, R.: Multiphysics modeling using COMSOL: A first principles approach, Jones & Bartlett Publishers, 2009,ISBN 978-0763779993

JIN, JIAN-MING: The finite element method in electromagnetics - 2 edition, Wiley-IEEE Press, 2002,

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