1. As shown in the figure below, a crown glass prism (n₁ = 1.52) is immersed in water (n2 = 1.33). 742 60.0° 0₁ 221 8₂ 30.0% 103 a. Find the exit angle 03. Of course, you are going to use Snell's Law to figure that out; what I am truly interested in seeing is how you figure out 0₂. You will need to use geometry and words to explain that one.
1. As shown in the figure below, a crown glass prism (n₁ = 1.52) is immersed in water (n2 = 1.33). 742 60.0° 0₁ 221 8₂ 30.0% 103 a. Find the exit angle 03. Of course, you are going to use Snell's Law to figure that out; what I am truly interested in seeing is how you figure out 0₂. You will need to use geometry and words to explain that one.
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1. As shown in the figure below, a crown glass prism (n₁ = 1.52) is immersed in water (n2
1.33).
7242
60.0°
12
021
30.0%
103
a. Find the exit angle 03. Of course, you are
going to use Snell's Law to figure that out; what
I am truly interested in seeing is how you figure
out 02. You will need to use geometry and words
to explain that one.
b. Is there a transmitted (refracted) ray drawn emerging from the glass/water interface at point
P? Perform a calculation that provides support for your answer, whether yes or no. If you think
there should be a transmitted ray, draw it on the diagram above. If you don't think there should
be, explain why. Hint: What does "critical angle" mean?
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