What's Next?

Congratulations

You have completed all 15 lessons of Electromagnetism in Python. You can now compute Coulomb forces, electric field strengths, electric potentials, Ohm's-law currents, series and parallel resistances, electrical power, the magnetic field of a wire, Lorentz forces, magnetic flux, solenoid inductance, Faraday induction EMFs, RC time constants, LC resonant frequencies, and skin depths — all in Python.

What's Next

• Classical Mechanics in C — The companion physics course: kinematics, Newton's laws, energy, oscillations, and gravitation
• Waves & Acoustics — Standing waves, Doppler effect, Sabine reverberation — acoustic physics you can hear
• Differential Equations in Python — Model RC charging curves, LC oscillations, and driven harmonic oscillators with Euler's method and RK4

References

• Griffiths — Introduction to Electrodynamics — the standard undergraduate text
• Hayt & Buck — Engineering Electromagnetics — engineering-focused coverage
• Falstad circuit simulator — visualise circuits and fields interactively