In the GEOGEBRA software package, simulation programs have been created related to electrical machines that can be accessed via the following link

Fundamentals of electrical engineering, magnetic circuits and transformers
1. Active, reactive and apparent power
2. Voltage drop in power transformer - Kapp diagram
3. Magnetization current and components

Electromechanical energy conversion
4. Reluctant moment of a magnetic system with one excitation winding

Direct current machines
5. DC generator separat. exited - Load curve u=f(j), i=const.
6. DC generator separat. exited - External curve u=f(i) j=const
7. DC generator separat. exited - Regul. curve j=f(i) u=const
8. DC generator separat. exited - S. C. curve i=f(j) u=0
9. DC generator shunt exited - External curve u=f(i) j=const
10. DC generator series exited - External curve u=f(i) j=i
11. DC generator comp. exited - External curve u=f(i) j=const
12. DC motor separate exited
13. DC motor series exited

Induction machines
14.a IM mechanical characteristic
14.b. IM Kloss Equation
15a. IM circle diagrame I
15b. IM circle diagrame II

Synchronous machines
16. Synchronous generator cylindrical rotor - vector diagram
17. Synchronous generator salient pole - vector diagram
18. Synchronous motor cylindrical rotor - vector diagram
19. Synchronous motor salient pole - vector diagram
20. Synchronous machine - PQ diagram TG
21. Synchronous machine - PQ diagram HG
22. Synchronous machine - Synchronization
23. Synchronous machine - Potier diagram
24. Synchronous machine - Swedish diagram
25. Synchronous machine - American diagram
26. V curves of synchronous machines
27. Short circuit of synchronous machines

Special machines, other
28. IM q=1 or q=2 Mechanical characteristics
29. Universal motor
30. Motor Efficiency plot T=f(w)
31. Motor Efficiency plot eta=f(P)


Programs of other authors in GEOGEBRI in the field of electrical machines
Geogebra programs Bjekić