Course syllabus for Electrical measurement techniques and wave physics

The overall aim is to provide knowledge on electrical phenomena and wave phenomena and their application and presence in technology and in nature.

More specific the aim is to:

• give practice to work with electrical circuits
• give theoretical insight of the function and design of electrical circuits
• give knowledge of mechanical and electromagnetic waves, their properties, propagation and interaction with matter.

• carry out calculations for electrical circuits of direct and alternating currents
  
• construct and measure simple electric circuits
• analyze and carry out calculations on damped, forced, and coupled vibrations
• carry out calculations on the properties, propagation, reflection and interference of mechanical and electromagnetic waves
• describe electromagnetic fields and carry out simple calculations related to Maxwell's equations
  
• describe the use of the wave concept in quantum physics

Electrical measurement techniques: Laws, concepts and computations on circuits for direct and alternating currents and on semiconductor circuits. Electric and magnetic fields. Lab works on direct current circits, alternate current circuits and semiconductor circuits.

Wave physics: Free, damped, forced and coupled vibrations. Propagation of mechanical waves. Properties and propagation of electromagnetic waves. Interference and diffraction with applications.

Lectures and tutorials. Lab works consisting of four half-day laboratory exercises in electrical circuits.

The part of the course dealing with electrical measurement techniques is examined through laboratory works and a mandatory intermediate test, given approximately three weeks into the course. The part of the course on wave physics has a final written examination with calculations and theory questions.