What Are Key Questions About Light Refraction and Wavelength?

AI Thread Summary
Key questions about light refraction and wavelength focus on the properties of light, such as how sunlight reaches Earth before the sun appears due to refraction. The wavelength of blue light in water can be calculated from its air wavelength, while the index of refraction of a liquid can be determined using its speed relative to light in a vacuum. For a clear plastic with a known index of refraction, the wavelength of light can be derived from its frequency. Additionally, Snell's Law can be applied to find the angle of refraction when light enters glass, and the critical angle can help determine the index of refraction for certain plastics. Understanding these principles is essential for solving related physics problems.
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Homework Statement


1. What property of light causes the sunlight to reach the Earth before the sun actually appears over the horizon?

2. What is the wavelength, in water, of blue light whose wavelength is 4.5 x 10^2 nm in air?

3.The speed of a certain liquid in a certain liquid is 3/4 the speed in a vacuum. What is the index of refraction of the liquid?

4. A clear plastic material has an index of refraction of 1.9. Light of frequency 4.5 x 10^14 Hz enters the plastic. What is the wavelength of the light while it is in the plastic?

5. A ray of light enters a piece of glass, making an angle of 50.0 degrees with the surface. What angle does the refracted ray make with the surface?

6. What is the index of refraction of a type of plastic for which the critical angle is 40.0 degrees.


Homework Equations



Our teacher gave us this, with no information.

The Attempt at a Solution



I need some formulas or a step in the right direction.
 
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Anyway someone could walk me through some of these problems?
 
Last edited:
Can someone please help me out?.
 
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You are required to put in some effort here. I don't see what you are even stuck on.

https://www.physicsforums.com/showpost.php?p=1042781&postcount=2
 
1. I think number 1 has to deal with the electromagnetic waves being refracted.

2. I know I do 3.0 x 10^8 * .700 to get the speed of light in water. Then I'm stuck.

3. The speed is 2.25 x 10^8, but I don't know how to get the index of refraction.

4. I am really lost.

5. 50 degrees as well?

6. Is it 1.54? sin(40) = .64 1/1.54 = .64
 
1. Photons, EM waves ... sounds ok.

2. If the wave is moving slower, what happens to the wavelength? You know how much slower, so what frequency do you get as a result?

3. What is the index of refraction? Have you looked it up?
http://en.wikipedia.org/wiki/Refractive_index#Definitions

4. Same method as 2.

5. See the Snell's Law link I posted earlier.

6. Yes. Close enough to 1.56.
 

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