Unit 04 Waves

Section 01 Fundamental Properties

• MLO 01 Applying the wave formula
• MLO 02 Understanding resonance
• MLO 03 Drawing and interpreting patterns of incident and reflected waves
• MLO 04 Drawing and interpreting patterns of incident and refracted waves
• MLO 05 Drawing and interpreting patterns of incident and diffracted waves
• MLO 06 Illustrating constructive and destructive interference and beats
• MLO 07 Describing mathematically standing wave patterns on a string

Section 02 Sound Waves and Electromagnetic Radiation

• MLO 08 Applying d=vt to sound transmission
• MLO 09 Doing numerical exercises on resonance in tubes (closed at one end)
• MLO 10 Doing numerical exercises on resonance in tubes (opened at both ends)
• MLO 11 Computing perceived sound frequencies caused by the Doppler Effect
• MLO 12 Doing Mach Number calculations
• MLO 13 Applying d=vt to light transmission
• MLO 14 Applying the Doppler Effect to light
• MLO 15 Finding images in plane mirrors
• MLO 16 Drawing rays (not optional) and finding images (optional) for curved mirrors
• MLO 17 Applying Snell’s Law to refraction situations
• MLO 18 Doing numerical exercises based on Young’s Double Slit interference
• MLO 19 Doing numerical exercises for interference caused by a diffraction grating
• MLO 20 Investigating Polarization