Announcements/Reading Assignment MORE mistakes on vectors...
Transcript of Announcements/Reading Assignment MORE mistakes on vectors...
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Physics 122 – Class #3 – Outline
●Announcements/Reading Assignment●MORE mistakes on vectors●MVSA Method / Snell's Law●Dispersion●Total internal reflection●Ray model of light why lenses work●Definition of focal length●Thin lens formula●Examples
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Physics 122 – Sections 4, 5, 6Prof. Richard Sonnenfeld
Labs: Start this week.
HWOL02 (Ray Optics – due Sat 1/24 @23:59)
HWWR01(Ray Optics – due Tue 1/27 in class) 6 Problems … see
http://kestrel.nmt.edu/~rsonnenf/phys122/homework/
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Reading Assignment (next class)
You have Read “Preface to the Student”You have actively read Chapter 3You have actively read Chapter 23 through page 666Actively read the rest of Chapter 23.(You are not responsible for the derivation of the thin lens laws, just understand how to use them … and ray tracing!)
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Concepts to get from readingV = c / nHow to use snell's law.Why there is total internal reflectionWhy refraction leads to behavior of lensesHow to use the lens equation
What is focal lengthWhat is real image?What is virtual image?How to do ray tracing.
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1 '=1
n1 sin 1=n2sin 2
v=f
vn=cn
Ch. 23: Ray Optics Formulae General property of waves True for light in media
Law of reflection (specular)
Snell's law (refraction)
Total internal reflection
Thin lens formula
sin(θc)=n2/n1
1f=1s+1s'
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Physics 122 – Class #3 – Outline
●Announcements●MORE mistakes on vectors●MVSA Method / Snell's Law●Dispersion●Total internal reflection●Ray model of light why lenses work●Definition of focal length●Thin lens formula●Examples
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Mistakes on Vectors in Recitation
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v=f
vn=cn
Light in media Nothing can exceed the speed of
light... in a vacuum!
Light in matter travels more slowly And wavelength changes.
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Clicker QuestionGreen laser light with frequency f, Wavelength And speed enters a piece of glass with n=1.5
(A) v decreases, f decreases andis unchanged (still green light) (B) v decreases, decreases andf is unchanged.(C) f increases, decreases andv is unchanged (speed of light is a constant).(D) 42
v=f
λ=440 nmv=3.0×108 m/s
λλ
λ
λ
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Physics 122 – Class #3 – Outline
●Announcements●MORE mistakes on vectors●MVSA Method / Snell's Law●Dispersion●Total internal reflection●Ray model of light why lenses work●Definition of focal length●Thin lens formula●Examples
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MVSA – From the beginning
Given a red laser beam in air that enters water in a fishtank and makes an angle of 39 degrees with the water surface, what angle does the transmitted beam make with the normal once it enters the water?[Similar to homework 23.10]
Model1) What law can I use?2) Oh … it's refraction … Snell's law
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n1sin 1 =n2sin 2
Visualize – Definitions in Snell's law
n1=1.000; θ1=51.00o
n2=1.335
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MVSA
VisualizeDo I know
SolvePlug and chug.
AssessDid the beam bend toward the normal? Should it?
n1, n2, θ1?
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n1sin(θ1)=n2sin(θ2)
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A laser beam passing from medium 1 to medium 2 is refracted as shown. Which is true?
A. n1 < n2.
B. n1 > n2.
C. There’s not enough information to compare n1 and n2.
Clicker Question
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Physics 122 – Class #3 – Outline
●Announcements●MORE mistakes on vectors●MVSA Method / Snell's Law●Dispersion●Total internal reflection●Ray model of light why lenses work●Definition of focal length●Thin lens formula●Examples
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n1sin(θ1)=n2sin(θ2)
DispersionMeans n depends onλ .
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Physics 122 – Class #3 – Outline
●Announcements●MORE mistakes on vectors●MVSA Method / Snell's Law●Dispersion●Total internal reflection●Ray model of light why lenses work●Definition of focal length●Thin lens formula●Examples
![Page 20: Announcements/Reading Assignment MORE mistakes on vectors …kestrel.nmt.edu/~rsonnenf/phys122/Lectures/S2015Class03.pdf · Physics 122 – Class #3 – Outline Announcements/Reading](https://reader034.fdocuments.net/reader034/viewer/2022042108/5e87cfbe30230b44f17e423c/html5/thumbnails/20.jpg)
Total internal reflection and Snell's Law – DEMO
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Homework, problem 23.14
The glass core of an optical fiber has an index of refraction of 1.60. The index of the cladding is 1.48. What is the maximum angle the light can make with the wall of the core if it is to remain in the fiber.
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Homework, problem 23.14The glass core of an optical fiber has an index of refraction of 1.60. The index of the cladding is 1.48. What is the maximum angle the light can make with the wall of the core if it is to remain in the fiber?
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Physics 122 – Class #3 – Outline
●Announcements●MORE mistakes on vectors●MVSA Method / Snell's Law●Dispersion●Total internal reflection●Ray model of light why lenses work●Definition of focal length●Thin lens formula●Examples
![Page 24: Announcements/Reading Assignment MORE mistakes on vectors …kestrel.nmt.edu/~rsonnenf/phys122/Lectures/S2015Class03.pdf · Physics 122 – Class #3 – Outline Announcements/Reading](https://reader034.fdocuments.net/reader034/viewer/2022042108/5e87cfbe30230b44f17e423c/html5/thumbnails/24.jpg)
Ray model of light and focal points – DEMO
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Focal pointFocal point:
The point at which parallel rays converge.Focal length: f = distance to focal point.
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Snell's law in combination with a Curved surface makes lenses work.
Can also see that f > R unless n infinite
f=R
(n−1)
n
R
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Both surfaces of lens helpFocus rays
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m=−s 's
1f=1s1s '
Image position and magnification
s = distance to objects' = distance to imagef = focal lengthm = magnification
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Convex lenses cause light rays to converge.
Concave lenses cause light rays to diverge.
Convex mirrors cause light rays to diverge.
Concave mirrors cause light rays to converge.
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Real and virtual images.Rays meet at a real image. Focus a flame and it will burn.
Real images are on opposite side of lens (and same side of mirror) from object.
Virtual images are on same side of les (and opposite side of mirror) from object.
Real images are inverted, virtual are erect.
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Ray Tracing with Lenses:The principal rays
Pray: Ray parallel to symmetry axis goes thru focal point F.Fray: Ray thru F comes out parallel to symmetry axisMray: Ray through middle of lens passes straight thru unchanged.
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Ray Tracing:
Lenses:Case I: f= 10 cm, s=15 cm.Case II: f= 10 cm, s=5 cm.Case III: f=10 cm, s=15 cm.
Mirrors:Case I: f= 10 cm, s=12 cm.Case II: f=10 cm, s=5 cm.Case III: f= 10 cm, s=20 cm.
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QuestionGiven an object placed 15 cm from a biconvex lens with focal length 10 cm, find the distance of the image from the lens (and the magnification M).
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Lenses:Case I: f= 10 cm, s=15 cm.
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1f=(n−1)(
1R1
−1R2
)
Ch. 23: Geometrical Optics Relation between object and image distance for single lenses and mirrors.
Magnification for single lens or mirror. Lensmaker's formula
1s+1s'=
1f
m=−s 's
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1 '=1
n1 sin 1=n2sin 2
v=f
vn=cn
Ch. 23: Ray Optics Formulae General property of waves True for light in media
Law of reflection (specular)
Snell's law (refraction)
Total internal reflectionsin c=n2
n1
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Next Time
Lenses / MirrorsPinhole camerasProperties of Waves