1. Unit 5: Light Physics 313 Fall 2015

2. Agenda 11/6/15 Review Unit 4 Quests Nspire: Pretest for Light Unit Notes: Electromagnetic Spectrum Electromagnetic Wave Myths

3. Today’s Target: I understand the trends that are associated with the EM Spectrum, including: energy, wavelength and frequency

4. Electromagnetic Radiation Activity Sounds dangerous… Would you want to be anywhere near something giving off Electromagnetic Radiation?

5. Let’s First look at the EM Spectrum

6. EM Wave Myths Pick a Question Answer the question with your group Create a brief explanation for the class about this myth.

7. Possible Questions 1.Too much cell phone use can cause brain cancer (radio waves). 2.Standing too close to a microwave will cause permanent brain damage (micro). 3.Infrared cameras can see into my house and should be illegal (IR). 4.Tanning beds are better for you than laying in the sun (UV) 5.Why do I need to wear a vest at the dentist when I get X- rays? 6.Gamma radiation could lead to superpowers!! 7.Fluorescent light bulbs can be more harmful than incandescent bulbs. (Visible)

8. Agenda 11/7/15 Recap our research of waves from Friday – Nspire Warm-UP Notes: Wave equation and Energy equation Practice: EM Waves PS

9. Learning Targets I can solve problems relating wavelength and frequency using the wave equation I can solve problems relating wavelength to energy using the energy of a wave equation

10. Let’s add more evidence to the mix Calculate the average energy of each type of radiation: E = hc/λ h (Planck’s constant) = 6.63 x10 -34 J*s c (speed of light) = 3 x10 8 m/s

11. A new Wave Equation c = λ x f C is a constant for the speed of light in a vacuum. c = 3.0 x 10 8 m/s How can this number change?

12. Practice on your EM Notes Page Let’s calculate all of the energies for the different types of EM Radiation.

13. Learning Target: Polarization I can explain the term polarized light.

14. Polarized Light Light is made up of waves in 360 o (a beam of light) Polarizers only allow one direction of light to pass through.

15. Glare Which direction should boating glasses be polarized? Which direction should driving glasses be polarized?

16. Agenda 11/9//15 Nspire HW Check: Electromagnetic Spectrum EM Spectrum PS Completion for make up points Polarization of Light PS

17. Application of Polarized Light https://www.youtube.com/watch?v=zL_HAm WQTgA https://www.youtube.com/watch?v=zL_HAm WQTgA

18. Agenda 11/11/15 Nspire Hw Check: Polarization of Light – Make-up Work for EM Spectrum HW Snell’s Law Lab – Lasers in water…cool Notes: Snell’s Law

19. Agenda 11/12/15 Nspire: Lab Follow Up Notes: Snell’s Law Hw: Snell’s Law PS

20. Snell’s Law What did we learn? What happens to light when it passes into different media? What did we call this phenomenon?

21. Snell’s Law The relationship between angle of incidence and the refracted angle. n 1 sinθ 1 = n 2 sinθ 2 n = index of refraction Θ = angle of incidence/refraction

22. Index of Refraction (n) Based on the speed of light in different medium. To calculate n: v 1 /v 2 = n 2 /n 1

23. Example of Snell’s Law

24. Example Problem Light passes from water (n= 2.43) into air (n=1). The incident ray of light hits the air- water surface at an angle of 23 o, what is the angle of refraction?

25. Example Problem Light passes between salt water and air (n=1). If the incident angle is 15 o and the refracted angle is 30 o what is the index of refraction for salt water?

26. Example Problem What is the speed of light in salt water? – First we need the index of refraction for salt water

27. Agenda 11/12/15 Nspire HW Check: Snell’s Law – Turn in Polarization of Light Make-Up Critical Angle Lab: Just like Snell’s Lab – What is happening at this angle? Hw: Get caught up on all make-up assignments

28. Agenda 11/16/15 Nspire: Unit Check Up Notes: Critical Angles Diamond Demo: Anyone have a diamond…? Diamonds are sparkly

29. Things are getting critical! What happens to the refracted light at a certain point? This is called the critical angle Sinθ c = n r /n i

30. Critical Angle The phenomenon in which all light is reflected, and none is refracted is called: Total Internal Reflection

31. How do you know what angle the light reflects at? THE LAW OF REFLECTION: When reflection occurs, the angle of the reflected light matches that of the incident light. θ i = θ r

32. Example A sun ray reflects off of the surface of a car. The sun strikes the car with an angle of 50 o from the surface, what is the angle of reflection?

33. Your Turn Let’s see how the entering light in a diamond will react differently for different angles. n diamond = 2.41 What is the critical angle?

34. Agenda 11/17/15 Nspire: Reflection and TIR Mirror Activity Reflection and Refraction PS

35. Agenda 11/18/15 Nspire: Reflection/Refraction HW Check Introduction to Color and Color Addition – PhET Color Notes and PS

36. Agenda 11/19/15 Nspire: Color Addition and Subtraction HW Check Color Demos Color PS

37. Agenda 11/23/15 Get Logged into Classroom Rainbow review Unit Review Quiz Review Activity

38. Rainbows

39. More Rainbows