The Refraction of Light: Lenses and Optical Instruments.
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Transcript of The Refraction of Light: Lenses and Optical Instruments.
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The Refraction of Light: Lenses and
Optical Instruments
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26.1 The Index of Refraction
sm1000.3 8cLight travels through a vacuum at a speed
Light travels through materials at a speed less than its speedin a vacuum.
DEFINITION OF THE INDEX OF REFRACTION
The index of refraction of a material is the ratio of the speed of light in a vacuum to the speed of light in the material:
v
cn
material in thelight of Speed
in vacuumlight of Speed
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26.1 The Index of Refraction
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26.2 Snell’s Law and the Refraction of Light
SNELL’S LAW OF REFRACTION
When light travels from a material withone index of refraction to a material witha different index of refraction, the angleof incidence is related to the angle ofrefraction by
2211 sinsin nn
SNELL’S LAW
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26.2 Snell’s Law and the Refraction of Light
1
2
n
ndd
Apparent depth,observer directlyabove object
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26.2 Snell’s Law and the Refraction of Light
THE DISPLACEMENT OF LIGHT BY A SLAB OF MATERIAL
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26.3 Total Internal Reflection
When light passes from a medium of larger refractive index into oneof smaller refractive index, the refracted ray bends away from the normal.
Critical angle 211
2 sin nnn
nc
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26.3 Total Internal Reflection
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26.3 Total Internal Reflection
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26.4 Polarization and the Reflection and Refraction of Light
1
2tann
nB Brewster’s law
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26.5 The Dispersion of Light: Prisms and Rainbows
The net effect of a prism is to change the direction of a light ray.
Light rays corresponding to different colors bend by different amounts.
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26.5 The Dispersion of Light: Prisms and Rainbows
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26.5 The Dispersion of Light: Prisms and Rainbows
Conceptual Example 7 The Refraction of Light Depends on TwoRefractive Indices
It is possible for a prism to bend light upward,downward, or not at all. How can the situationsdepicted in the figure arise?
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26.5 The Dispersion of Light: Prisms and Rainbows
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26.6 Lenses
Lenses refract light in such a way that an image of the light source isformed.
With a converging lens, paraxial rays that are parallel to the principalaxis converge to the focal point.
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26.6 Lenses
With a diverging lens, paraxial rays that are parallel to the principalaxis appear to originate from the focal point.
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26.6 Lenses
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26.7 The Formation of Images by Lenses
RAY DIAGRAMS
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26.7 The Formation of Images by Lenses
IMAGE FORMATION BY A CONVERGING LENS
In this example, when the object is placed further thantwice the focal length from the lens, the real image is inverted and smaller than the object.
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26.7 The Formation of Images by Lenses
When the object is placed between F and 2F, the real image is inverted and larger than the object.
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26.7 The Formation of Images by Lenses
When the object is placed between F and the lens, the virtual image is upright and larger than the object.
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26.7 The Formation of Images by Lenses
IMAGE FORMATION BY A DIVERGING LENS
A diverging lens always forms an upright, virtual, diminished image.
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26.8 The Thin-Lens Equation and the Magnification Equation
fdd io
111
o
i
o
i
d
d
h
hm
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26.8 The Thin-Lens Equation and the Magnification Equation
Summary of Sign Conventions for Lenses
lens. converging afor is f
lens. diverging afor is f
lens. theofleft the toisobject theif is od
lens. theofright the toisobject theif is od
image). (real lens theofright the toformed imagean for is id
image). (virtual lens theofleft the toformed imagean for is id
image.upright an for is m
image. invertedan for is m
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26.9 Lenses in Combination
The image produced by one lens serves asthe object for the nextlens.
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26.10 The Human Eye
ANATOMY
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26.10 The Human Eye
OPTICS
The lens only contributes about 20-25% of the refraction, but its functionis important.
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26.10 The Human Eye
NEARSIGNTEDNESS
The lens creates an image of the distance object at the far pointof the nearsighted eye.
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26.10 The Human Eye
FARSIGNTEDNESS
The lens creates an image of the close object at the near pointof the farsighted eye.
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26.13 The Telescope
Angular magnification ofan astronomical telescope e
o
f
fM