1. THEORY OF ELECTRO MAGNETIC FIELDS.
- Faraday's law, Ampere's law, Maxwell's equations - with a focus
modeling the magnetic field.
2. STRUCTURE OF THE MODEL SYSTEM FOR ANSYS
- Build a model
- Material constants,
- Solutions and types of solvers,
- Data evaluation.
3. INTRODUCTION TO CONTROL SYSTEM WITH ANSYS
- Description, structure and program options,
- Control of the individual platforms,
- Data entry,
- Extracting the results.
4. EXAMPLES OF TASKS resolved 2D and 3D
- 2D role of magnetic fields, boundary conditions, model solution,
evaluation.
- 3D role of magnetic fields, scalar and vector potential, boundary
conditions, model, solution, evaluation.
5. SOLVING STUDENTS SEPARATE TASKS
- Simple 2D and 3D models (source magnetic field, electrical coil
etc.)
- Faraday's law, Ampere's law, Maxwell's equations - with a focus
modeling the magnetic field.
2. STRUCTURE OF THE MODEL SYSTEM FOR ANSYS
- Build a model
- Material constants,
- Solutions and types of solvers,
- Data evaluation.
3. INTRODUCTION TO CONTROL SYSTEM WITH ANSYS
- Description, structure and program options,
- Control of the individual platforms,
- Data entry,
- Extracting the results.
4. EXAMPLES OF TASKS resolved 2D and 3D
- 2D role of magnetic fields, boundary conditions, model solution,
evaluation.
- 3D role of magnetic fields, scalar and vector potential, boundary
conditions, model, solution, evaluation.
5. SOLVING STUDENTS SEPARATE TASKS
- Simple 2D and 3D models (source magnetic field, electrical coil
etc.)