Part 1: Wavelength in a Medium

9 Wavelength in a Medium Examine Scenario 1 How does the wavelength for the reflected light compare (bigger, smaller, same) to the incident light? How does the wavelength for the transmitted light compare (bigger, smaller, same) to the incident light? Where was the index of refraction greater, in the medium with the incident light or the reflective light? How does the wavelength for the reflected light compare (bigger, smaller, same) to the incident Light? How does the wavelength for the transmitted Light compare (bigger, smaller, same) to the incident light? Where was the index of refraction greater, in the medium with the incident light or the reflective light? {jg t , Wavelength in a Medium Scenario 1 Lower Index of Refraction Transmitted Higher Index of Refraction /\\/\\/\\/\\ Scenario 2 Transmitted Waves Lower Index of Refraction Higher Index of Refraction Each medium (box) is the same width (path length) ' Wavelength in a Medium Explore In Scenario 1 o How many wavelengths are there for the Light that travels through the lower index medium (both parts together)? 0 How many wavelengths are there for the light that travels through the lower index medium and then the higher index medium (both parts together)? In Scenario 2 o How many wavelengths are there for the light that travels through the lower index medium (both parts together)? 0 How many wavelengths are there for the light that travels through the lower index medium and then the higher index medium (both parts together)? \fa Two Source Interference with a Medium Does the index of refraction change along the path of Q? If so, does it increase or decrease? Does the index of refraction change along the path of 02? If so, does it increase or decrease? For the path that experiences a change in the index of refraction, will that change cause a larger or smaller amount of wavelengths (N) than if the index of refraction did not change? explain