Fundamentals of Physics - Magnets, Electrics, Waves, Optics (Dasar-dasar Fisika - Magnet, Listrik, Gelombang, Optik)

Kursus ini merupakan seri kedua dari fisika dasar untuk para insinyur dalam menyelesaikan masalah magnet, listrik, gelombang, dan optik. materi pelajaran mencakup Elektrostatik (medan listrik, Hukum Coulomb), Energi Potensial Listrik, Kapasitor. Magnetostik, Gaya gerak listrik , Arus Bolak-balik, Gelombang Elektromagnetik, Fisika Modern, Fisika Atom.


  1. Walker, J., Halliday, D., & Resnick, R. (2011). Fundamentals of physics. Hoboken, NJ. John Wiley & Sons, Inc.
  2. Serway, R. A., Jewett, J. W., & Serway, R. A. (2004). Physics for scientists and engineers. Belmont, CA. Thomson-Brooks/Cole.

Course Fee

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Appointment with tutor(s)


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This course is intended to provide basic understanding in basisc electrostatics concepts. This session includes:

  1. Coulomb Law and Electric Field
  2. Gauss Law and Electrical Flux
  3. Electrical Potential Energy
  4. Capacitor and Dielectrics


Magnetostatics session discuss concepts about magents and its application to solve science and engineering problems. The materials discussed includes:

  1. Magnetic Field
  2. Lorentz Force
  3. Magnetic Field from Electrical Current (Biot-Savart and Ampere Law)

Induction and Inductance

This session will gives explanation in Faraday and Lenz law to solve electromotive force. The materials discussed includes:

  1. Basics of Electromotive Force (EMF)
  2. Faraday - Lenz Law
  3. Self Induction and Mutual Induction
  4. Basics of Alternating/Direct Current (AC/DC), RLC Circuit
  5. RMS-Current and Voltage
  6. Impedance
  7. Resonance in RLC Circuit

Electromagnetic Waves

Electromagnetic waves session includes materials in:

  1. Maxwell Equation
  2. Electromagnetic Waves Equation
  3. Poynting Vector
  4. Polarization by Reflection

Interference and Diffraction of Light Waves

As light waves is common to be found in this digital era, this basic course will provide understanding to solve most common problems in engineering. This session discuss materials:

  1. Interference in Double and N-slit
  2. Interference from Thin Films
  3. Diffraction
  4. Combined Interference and Diffraction

Modern Physics

Some modern physics basics are development from relativity theroy from Einstein. This session will also provide application in science and engineering world, including:

  1. Einstein's Theory of Relativity
  2. Photons and Matter Waves
  3. Atomic and Material Physics