2. You want to use a +12 cm focal length lens as a x6 magnifier. How high above the object should you hold it?

College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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could you answer question 2 please?
Name Sophie Gannon
Try 1 DUE: Friday, February 24 IN CLASS
incident o > critical @
TIR
total internal reflection
n₁ sino₁ = n² sin0₂
A, B, G
с
D
E
M =
F
h
P211 Intro Physics II
Mastery Outcome Problem 4: Light Rays
=
-S
S
1
S S
1. The figure shows seven conceivable trajectories of
light rays leaving an object. Which, if any, of these
trajectories are impossible? For each that is possible,
what are the requirements of the index of refraction
n2?
Impossible
Requires n₂ > ni
Requires n₂ = n₁
Requires n₂ <ni
Possible for any n2
If there are any impossible trajectories, briefly explain why they are impossible.
→ the angle of refraction can never be negative
A
1 1
s' f
incident
ray
↓
ni
n2
normal
angle of
incidense
point
ofcidence
G
B → the angle of refraction can only be zero if the
incidense angle is zero
E
D
interface
frefracted rays
C
angle
I of refraction
G→
the angle of reflection is smaller than the incidense angle.
These 2 angle should always be equal.
2. You want to use a +12 cm focal length lens as a x6 magnifier. How high
above the object should you hold it?
Transcribed Image Text:Name Sophie Gannon Try 1 DUE: Friday, February 24 IN CLASS incident o > critical @ TIR total internal reflection n₁ sino₁ = n² sin0₂ A, B, G с D E M = F h P211 Intro Physics II Mastery Outcome Problem 4: Light Rays = -S S 1 S S 1. The figure shows seven conceivable trajectories of light rays leaving an object. Which, if any, of these trajectories are impossible? For each that is possible, what are the requirements of the index of refraction n2? Impossible Requires n₂ > ni Requires n₂ = n₁ Requires n₂ <ni Possible for any n2 If there are any impossible trajectories, briefly explain why they are impossible. → the angle of refraction can never be negative A 1 1 s' f incident ray ↓ ni n2 normal angle of incidense point ofcidence G B → the angle of refraction can only be zero if the incidense angle is zero E D interface frefracted rays C angle I of refraction G→ the angle of reflection is smaller than the incidense angle. These 2 angle should always be equal. 2. You want to use a +12 cm focal length lens as a x6 magnifier. How high above the object should you hold it?
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in step 3, how did you get to 5/6s ??

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