Schema föreläsningar 2019 (jpg)
Schema laborationer 2019 (jpg)
Schema repetition och tentamen Januari 2020 (jpg)
Schema i TimeEdit
Kapitel att studera (pdf)
Övningsuppgifter med svar (pdf)
...med lösningar (pdf)
Räkneövningar lösta under föreläsningarna (pdf)
Formelsamling (pdf)
Lab handledning: Diffraction and interference (pdf)
Lab handledning: Geometrical optics (pdf)
Föreläsningsanteckningar
Kapitel 15 - Mekaniska vågor (pdf)
Kapitel 16 - Ljud(pdf)
Kapitel 32 - Elektromagnetiska vågor (pdf)
Kapitel 33 - Ljusets natur (pdf)
Kapitel 34 - Optik (pdf)
Kapitel 35 - Interferens (pdf)
Kapitel 36 - Diffraktion (pdf)
Repetition av kapitel 14-36 (pdf)
Video inspelningar av föreläsningarna
Kapitel 15 - Mekaniska vågor del 1-8 (271 MB) del 9-14 (281 MB)
Kapitel 16 - Ljud del 1-9 (378 MB) del 10-19 (380 MB)
Kapitel 32 - Elektromagnetiska vågor del 1-7 (318 MB)
Kapitel 33 - Ljusets natur del 1-9 (399 MB)
Kapitel 34 - Optik del 1-9 (313 MB) del 10-16 (195 MB) del 17-23 (313 MB)
Kapitel 35 - Interferens del 1-5 (262 MB) del 6-12 (252 MB)
Kapitel 36 - Diffraktion del 1-9 (405 MB)
Video filmer och simuleringar använda i föreläsningarna
Kapitel 14 - Harmonisk svängning
Spray paint oscillator
Simple harmonic motion
Hooke's Law: force exerted by a spring
Oscillating masses on an air track
Harmonic oscillation and circular motion
Simple harmonic motion and uniform circular motion
Conservation of energy with a spring
Conservation of energy in simple harmonic motion 
Vibration of MoleculesKapitel 15 - Mekaniska vågor
Velocity of Pulse Propagated Through a spring
Transverse and Longitudinal Waves
Vibrations on singing strings
Simulation of a wave on a String
Making standing waves
Demonstration of Standing Waves
OctobasseKapitel 16 - Ljud
Relative speed of sound in solids, liquids, and gases
Animation of a sound wave
SONAR
Kundts Tube resonance
Animation to visualize particle motion and pressure for longitudinal standing sound waves
Simulation: Sound interference
Simulation: Beats of two waves
Simulation: Sound of beats
Beat Frequency
Doppler Effect and Shock Waves
Sonic Booms from Supersonic FlightKapitel 32 - Elektromagnetiska vågor
Hertz Experiment on Electromagnetic Waves
How a Crookes radiometer worksKapitel 33 - Ljusets natur
Disappearing Coin
Refraction
Huygens' Principle
Total Internal Reflection
Bending the light
Fiber Optic Cables Internal Structure
Optical Fibers
Refraction demonstration of a fountain making a rainbow
Refraction: why glass prisms bend and separate lightKapitel 34 - Optik
Mirrors and Lenses
Simulation: Flat mirror
Simulation: Concave mirror
Simulation: Convex mirror
Simulation: Converging lens
Simulation: Diverging lens
Simulation: Lenses and Mirrors
Concave Mirror
Concave Mirror and real image
Convex Mirror
Convex and concave Lenses
How an E-mount Camera Works 
Seeing: Eyes and Vision
How the Eye Works 
Finding Refractive Power (Diopters)
Giant Magellan Telescope Kapitel 35 - Interferens
Interference of Waves
Ripple Tank: Interference of Two Point Sources
Simulation: Ripple tank
Animation: Young's Double Slit Experiment
Young's Double Slit Experiment
Simulation: Young's Double Slit Experiment
Animation of phasor addition
Thin Film Interference
Newton's Rings
Michelson InterferometerKapitel 36 - Diffraktion
Ripple Tank: Single and Double Slit Diffraction and Interference
Laser Diffraction and Interference
Simulation: Diffraction and Interference in Single and Double Slit
Simulation: Multiple Slit Diffraction
Spectrometer
Simulation: Optical Resolution
How a DVD player works