reflection and refraction 1.reflection most objects we see reflect light
TRANSCRIPT
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Reflection and Refraction
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1. REFLECTION
Most objects we see reflect light.
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2. PRINCIPLE OF LEAST TIME
Fermat's principle:
Light travels in straight lines and
will take the path of least time.
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Fermat says take this path.
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3. LAW OF REFLECTION
• Using Fermat's principle one can show the
law of reflection.
A B
1 2 345
Mirror
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• The law of reflection states that
the angle of incidence (i) equals
the angle of reflection (r).
• This is true for specular reflection.
(Specular reflection is “mirror-like” reflection.)
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Included in the law of reflection is the fact that the incident ray, the normal, and the reflected ray all lie in the same plane.
Normal
Specular Reflecting Surface
Incident Ray Reflected Ray
i r
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Demo - Candle Burning Under WaterDemo - Candle Burning Under Water
Video - Candle Burning Under WaterVideo - Candle Burning Under Water
Video - Water Wave ReflectionsVideo - Water Wave Reflections
Demo - Mirror Track Tracing – Take home Demo - Mirror Track Tracing – Take home
exercise for PQ Pointsexercise for PQ Points
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Plane Mirror
Ray DiagrammingPlane Mirror
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Plane Mirror
Ray DiagrammingPlane Mirror
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Plane Mirrors
Using ray diagramming one finds
that the image is
1. Upright
2. Same size as the object
3. Virtual
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Diffuse Reflection
• Video - Diffuse ReflectionVideo - Diffuse Reflection
• If successive elevations of a surface are
no more than /8 apart, then
the surface is said to be polished at that
wavelength.
• Most objects are seen by diffuse
reflection.
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Diffuse Reflection
Magnification of a surface
Colored lines are for the purpose of distinguishing reflected rays from
incident rays.
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• Something that is barely polished for red light would not be polished for blue light.
• Consider microwave satellite dishes.
They are polished for microwaves but not for visible.
• The metal screen in a microwave oven serves what purpose?
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Reflection from Curved Surfaces(Concave shown here)
The law of specular reflection is still obeyed.
Principal axis
Reflecting Surface
Ray Diagramming
f
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Reflection from Curved Surfaces(Concave shown here)
The law of specular reflection is still obeyed.
Principal axis
Reflecting Surface
Ray Diagramming
f
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• Demo - Coin MirageDemo - Coin Mirage
• Demo – Deep Concave Mirror Demo – Deep Concave Mirror
• Demo - Make-up Mirror ImagesDemo - Make-up Mirror Images
• Concave mirrors can produce real inverted
images that are magnified, diminished, or
the same size as the object.
• Concave mirrors can produce virtual
upright images that are magnified.
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More on Mirrors
• Convex mirrors always produce a diminished, upright, virtual
image.
• Demo - Convex Mirror Demo - Convex Mirror
• Demo - Two Perpendicular MirrorsDemo - Two Perpendicular Mirrors
• Demo - Three Perpendicular MirrorsDemo - Three Perpendicular Mirrors
• Demo – Road ReflectorsDemo – Road Reflectors
• Question - Why is it hard to see at night Question - Why is it hard to see at night after after
or during a rain?or during a rain?
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Chapter 28 Review Questions
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What type of mirror would you use to produce a magnified image of your face? (a) flat
(b) concave
(c) convex
(d) you could use a concave or a convex
mirror
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What is (are) the purpose(s) of the wire screen in the door of a microwave oven?
(a) to absorb microwaves
(b) to allow you to see what's cooking
(c) to reflect microwaves
(d) all of the above
(e) only (b) and (c)
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4. REFRACTION
• Fermat's principle can also explain refraction (remember the beach).
• Refraction of light is the bending of light as it passes obliquely from one medium to another.
• It is due to the different speeds of light in the two different media.
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Index of Refraction
Index of refraction of a material equals
the speed of light in a vacuum divided by
the speed of light in the material.
v
cn
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Demo – Green Laser Refraction in an Aquarium Demo – Green Laser Refraction in an Aquarium Demo - Twinkling with LaserDemo - Twinkling with Laser
Slide - Twinkling Cartoon Slide - Twinkling Cartoon
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• Video - Water Wave RefractionsVideo - Water Wave Refractions
• Video - "Broken" Pencil Refraction Video - "Broken" Pencil Refraction
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Earth
Sun
Sun
Because of atmospheric refraction, we have lingering, elliptical sunsets.
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Mirage
Warm air
Cool air
Surface of water?
Highway Mirage
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Cool air
Looming
Warm air
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Chapter 28 Review Question
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An oar partially immersed in water appears "broken" because of
(a) refraction
(b) diffraction
(c) polarization
(d) interference
(e) absorption
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5. CAUSE OF REFRACTION
• When light passes from one medium to another, its speed changes which in turn causes a bending of the light.
• Examples:
Car running onto shoulder of road
Light passing from air into water
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Air
Water
i
R
Wave fronts of light
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• This bending produces illusions.
• Example: Objects in water appear closer and nearer to the surface.
Air
Water
Eye
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Demo – Bow FishingDemo – Bow Fishing
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Fish can see everything above the surface of
water within a 960 cone.
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960
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Demo - Disappearing Pyrex Demo - Disappearing Pyrex
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Dispersion
• Different frequencies are bent different amounts which causes a separation of white light into its constituent colors.
• This is the basic principle behind the operation of a prism. We say that a prism disperses the light.
• The higher frequencies interact most (slow down the most) and thus are bent the most.
• Demo - Aquarium Prism Demo - Aquarium Prism
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Prism
Slit
White Light Source
Dispersion in a Prism
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Rainbow
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• Picture - RainbowPicture - Rainbow
• Individual drops act as dispersers.
• The 42o cone
• DemoDemo – Rainbow Model– Rainbow Model
• A single eye can only see a small range of colors from a single raindrop.
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Secondary Rainbow
Double rainbows are dimmer, higher, and have colors reversed. Link to picture.
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Green Flash
Earth
Sun
Dispersion occurs causing multiple images of the sun.The last to set would be blue,but most of the blue has beenscattered which leaves green.
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6. TOTAL INTERNAL REFLECTION
• Video - Laser Under WaterVideo - Laser Under Water
• Critical angle is the angle where total
internal reflection (TIR) begins.
• TIR is possible only when light is entering a
medium of lesser index of refraction.
• Binoculars make use of TIR.
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Flex Cam – Monocular Flex Cam – Monocular
Two Prisms in a Monocular
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• Fiber optic devices make use of TIR.
• Demo - Laser and Light PipeDemo - Laser and Light Pipe
• Video - Woman at Edge of PoolVideo - Woman at Edge of Pool
• Flex Cam – Aquarium and Finger Dip in WaterFlex Cam – Aquarium and Finger Dip in Water
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Chapter 28 Review Questions
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A lingering sunset is
(a) a looming effect
(b) caused by an elliptical (oval) sun
(c) due to atmospheric refraction
(d) caused by reflections from the upper atmosphere
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When a beam of light emerges at a nonzero angle from water to air, the beam
(a) bends away from the normal
(b) continues in the same direction
(c) bends toward the normal
(d) changes frequency
(e) slows down
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7. LENSES
• Lenses use refraction to form
images.
• Demo - Fresnel Lens Demo - Fresnel Lens
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A Convex Lens Converges Light Rays
f
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Imaging with a Convex Lens
sees animage here.
Convex Lens
f
Principal Axis
Arrow asObject A ray parallel to the principal axis
is bent upon entering the lens.
Upon exiting the lens it is bent again
and passes through a point called the focal point.
A ray passing through the center of the lens is basically undeflected.
An eye placed here
This arrangement produces an inverted, real, diminished image.
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More Imaging With a Convex Lens
sees animage here.
Convex Lens
Principal Axis
Arrow asObjectA ray parallel to the principal axis
is bent upon entering the lens.Upon exiting the lens it is bent again
and passes through a point called the focal point.
A ray passing through the center of the lens is basically undeflected.
An eye placed here
This arrangement produces an upright, virtual, magnified image. It is a simple magnifying glass.Farsighted people use lenses similar to these.
f
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A Concave Lens Diverges Light Rays
f
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f
Imaging with a Concave Lens
sees animage here.
Concave Lens
Principal Axis
Arrow asObject A ray parallel to the principal axis such that is appears to have come
from a point called the focal point.
is bent upon entering the lens.
Upon exiting the lens it is bent again
A ray passing through the center of the lens is basically undeflected.
An eye placed here
This arrangement produces an upright, virtual, diminished image.Nearsighted people use lenses similar to these.
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Convex lenses are positive converging lenses.Concave lenses are negative diverging lenses.
Farsighted people use lenses similar to these.Nearsighted people use lenses similar to these.
Types of Lenses
DoubleConvex
DoubleConcave
Concave Meniscus
PlanoConvex
PlanoConcave
Convex Meniscus
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Convex Lens
Spherical Aberration
8. LENS DEFECTS
or lens combination Cure – Diaphragm
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Convex Lens
Chromatic Aberration
Cure – Diaphragm or lens combinations(achromatic lens)
Demo – Overhead Chromatic AberrationDemo – Overhead Chromatic AberrationAstigmatism – due to barrel-shaped cornea
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Eyeglasses
• Picture - FarsightednessPicture - Farsightedness
• Picture - NearsightednessPicture - Nearsightedness
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Chapter 28 Review Questions
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One way to reduce the problem of spherical aberration in a positive lens is to join a negative lens to it to form a compound lens.
(a) True
(b) False
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If you wish to take a picture of your image while standing 5 ft in front of a plane mirror, for what distance should you set your camera to provide the sharpest focus?(a) 10 ft(b) 5 ft(c) 2.5 ft(d) it can't be done