Thursday, October 5, 2017

Think Refraction

DoNow: What are the possible outcomes of light that hits a boundary? What laws are followed? (notes)

AIM: I can use key vocabulary to describe how to apply Snell's Law to predict the quantitative direction of refracted light paths and how to set-up the special situation used to calculate the critical angle for Total Internal Reflection, TIR. I can predict the direction of refraction with respect to the normal using density, index of refraction and apparent speed of the medium.

Activities:
- Dot or Not Illustration of one Refraction Phenomenon SpA
- Submit The in in N-dex HWReading Notes 26.5 (stop at Total Internal Reflection) CE11, CE13; P37; Refraction WS2Refraction Thought Experiment
- Tableshare The T in Total Reflection HW
- Stop to Think About Refraction of a Light Ray
- Fiber Optic Demo (notes)
Direction of Refraction Reading & Refraction WS3 **printable protractor**
- Practice Snell's Law using Refraction WS4 **printable protractor**
- Illustrated Mnemonic: Acronym SpA for Optical Density & Refraction
Reading Notes 26.5 (Total Internal Reflection to end) CQ7, CQ11, CQ13; P49

Homework:
Complete Reading Notes 26.5 (Total Internal Reflection to end) CQ7, CQ11, CQ13; P49; Refraction WS4Refraction WS3

Due: The T in Total Reflection HW

Coming Up:
Refraction and Diffraction Phenomenon
Illustrated Mnemonic: Acronym SpA, Due: Wed., 11Oct
Refraction of Light Lab and CER & **printable protractor**, Due: Wed., 11Oct
What do you think about Refraction? WSRefraction of Light Phenomenon WS, Due: TBA
Refraction TEST: TBA

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