textbook sections 26-3 – 26-5, 26-8 physics 1161: lecture 17 reflection & refraction
TRANSCRIPT
![Page 1: Textbook sections 26-3 – 26-5, 26-8 Physics 1161: Lecture 17 Reflection & Refraction](https://reader036.vdocument.in/reader036/viewer/2022062517/56649f255503460f94c3bb2d/html5/thumbnails/1.jpg)
• Textbook sections 26-3 – 26-5, 26-8
Physics 1161: Lecture 17
Reflection & Refraction
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R f1)
2)
3)
p.a.
Preflight 17.1
Which ray is NOT correct?
36%
45%
18%
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R f1)
2)
3)
p.a.
Preflight 17.1
Ray through center should reflect back on self.
Which ray is NOT correct?
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Preflight 17.3The image produced by a concave mirror of a real object is:
1) Always Real
2) Always Virtual
3) Sometimes Real, Sometimes Virtual 39%
30%
30%
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Where in front of a concave mirror should you place an object so that the image is virtual?
1 2 3 4
0% 0%0%0%
1. Close to mirror2. Far from mirror 3. Either close or far4. Not Possible
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Where in front of a concave mirror should you place an object so that the image is virtual?
1. Close to mirror2. Far from mirror 3. Either close or far4. Not Possible
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Solving EquationsA candle is placed 6 cm in front of a concave mirror with focal length f=2 cm. Determine the image location.
R f
p.a.
Preflight 17.2Compared to the candle, the image will be:
• Larger
• Smaller
• Same Size
29%
12%
59%
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Solving EquationsA candle is placed 6 cm in front of a concave mirror
with focal length f=2 cm. Determine the image location.1 1 1
6 cm 2 cmid di = + 3 cm (in front of mirror)
Real Image!
R f
p.a.
Preflight 17.2Compared to the candle, the image will be:
• Larger
• Smaller
• Same Size
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Physics 1161: Lecture 17, Slide 9
3 Cases for Concave Mirrors
Inside F• C F• Object Image
• C F• ObjectImage
• C F• Object
Image
Between C&F
Past C
Inverted
Enlarged
Real
Upright
Enlarged
Virtual
Inverted
Reduced
Real
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Solving EquationsA candle is placed 6 cm in front of a convex mirror with focal length f=-3 cm. Determine the image location.
Determine the magnification of the candle.
If the candle is 9 cm tall, how tall does the image candle appear to be?
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Solving EquationsA candle is placed 6 cm in front of a convex mirror with focal length f=-3 cm. Determine the image location.
Determine the magnification of the candle.
If the candle is 9 cm tall, how tall does the image candle appear to be?
-2 cmm
6 cmi
o
d
d m = + 1/3
1/ 39 cm
ih hi = + 3 cm
Image is Upright!
1 1 1
6 cm 3 cmid
di = - 2 cm (behind mirror)
Virtual Image!
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Preflight 17.4The image produced by a convex mirror of a real object is ?
1) Always real
2) Always virtual
3) Sometimes real and sometimes virtual
24%
61%
15%
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Mirror Summary• Angle of incidence = Angle of Reflection• Principal Rays– Parallel to P.A.: Reflects through focus– Through focus: Reflects parallel to P.A.– Through center: Reflects back on self
• |f| = R/2•
•
1 1 1
o id d f
i i
o o
h dm
h d
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Physics 1161: Lecture 17, Slide 14
Indices of Refraction
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Snell’s Law
n1
n2
When light travels from one medium to another the speed changes v=c/n, but the frequency is constant. So the light bends:
n1 sin(1)= n2 sin(2)
1
21) n1 > n2
2) n1 = n2
3) n1 < n2
Preflight 17.6
Compare n1 to n2.
21 %
21 %
58 %
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Snell’s Law
n1
n2
When light travels from one medium the speed changes. If the angle of incidence is greater than 0, the light bends. During this process, the frequency remains constant.
n1 sin(1)= n2 sin(2)
1
2
1) n1 > n2
2) n1 = n2
3) n1 < n2
1 < 2
sin1 < sin2
n1 > n2
Preflight 17.6
Compare n1 to n2.
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n1
n2
Snell’s Law Practice
n1sin1 n2 sin2
norm
al
2
A ray of light traveling through the air (n=1) is incident on water (n=1.33). Part of the beam is reflected at an angle r = 60. The other part of the beam is refracted. What is 2?
1 r
Usually, there is both reflection and refraction!
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n1
n2
Snell’s Law Practice
n1sin1 n2 sin2
norm
al
2
A ray of light traveling through the air (n=1) is incident on water (n=1.33). Part of the beam is reflected at an angle r = 60. The other part of the beam is refracted. What is 2?
sin(60) = 1.33 sin(2)
2 = 40.6 degrees
1 =r =
1 r
Usually, there is both reflection and refraction!
![Page 19: Textbook sections 26-3 – 26-5, 26-8 Physics 1161: Lecture 17 Reflection & Refraction](https://reader036.vdocument.in/reader036/viewer/2022062517/56649f255503460f94c3bb2d/html5/thumbnails/19.jpg)
Which way should you move object so image is real and diminished?
1 2 3
33% 33%33%
1. Closer to the lens2. Farther from the lens3. A converging lens can’t
create a real, diminished image.
F
F
Object
P.A.
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Which way should you move object so image is real and diminished?
1 2 3
33% 33%33%
1. Closer to the lens2. Farther from the lens3. A converging lens can’t
create a real, diminished image.
F
F
Object
P.A.
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Image Object
ImageObject
Object
Image
3 Cases for Converging Lenses
This could be used as a projector. Small slide on big screen
This is a magnifying glass
This could be used in a camera. Big object on small film
UprightEnlargedVirtual
InvertedEnlargedReal
InvertedReducedReal
Inside F
Past 2F
BetweenF & 2F
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1) Rays parallel to principal axis pass through focal point.
2) Rays through center of lens are not refracted.
3) Rays toward F emerge parallel to principal axis.
Diverging Lens Principal Rays
F
F
Object
P.A.
Image is (always true): Real or Imaginary
Upright or Inverted
Reduced or Enlarged
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1) Rays parallel to principal axis pass through focal point.
2) Rays through center of lens are not refracted.
3) Rays toward F emerge parallel to principal axis.
Diverging Lens Principal Rays
F
F
Object
P.A.
Image is virtual, upright and reduced.
Image
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Which way should you move the object to cause the image to be real?
1 2 3
33% 33%33%
1. Closer to the lens2. Farther from the lens3. Diverging lenses can’t
form real images
F
F
Object
P.A.
![Page 25: Textbook sections 26-3 – 26-5, 26-8 Physics 1161: Lecture 17 Reflection & Refraction](https://reader036.vdocument.in/reader036/viewer/2022062517/56649f255503460f94c3bb2d/html5/thumbnails/25.jpg)
Which way should you move the object to cause the image to be real?
1 2 3
33% 33%33%
1. Closer to the lens2. Farther from the lens3. Diverging lenses can’t
form real images
F
F
Object
P.A.