Schema Januari 2018 (jpg)
Kapitel att studera (pdf)
Övningsuppgifter med svar (pdf)
Räkneövningar lösta under föreläsningarna (pdf)
Formelsamling (pdf)
Lab handledning: Diffraction and interference (pdf)
Lab handledning: Geometrical optics (pdf)
Fel analys (Columbia University) (web sida)
Fel analys (Rice University) (web sida)
Program för att rita funktioner (web sida)
Instruktioner för hur man gör "screen shots" (web sida)
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 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