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OpticsOpticsMirrors and LensesMirrors and Lenses
ReflectionReflection• We describe the path of light as straight-line raysWe describe the path of light as straight-line rays• Reflection off a flat surface follows a simple rule:Reflection off a flat surface follows a simple rule:
– angle in (incidence) equals angle out (reflection)– angles measured from surface “normal” (perpendicular)
surface normal
sameangleincident ray exit ray
reflected ray
Reflection VocabularyReflection Vocabulary• Real Image – Real Image –
–Image is made from “real” light rays that converge at a real focal point so the image is REAL
–Can be projected onto a screen because light actually passes through the point where the image appears
–Always inverted
Reflection VocabularyReflection Vocabulary
• Virtual Image– Virtual Image– –“Not Real” because it cannot be
projected –Image only seems to be there!
Virtual Images in Plane Mirrors
If light energy doesn't flow from the image, the image is "virtual".
Rays seem to come from behindthe mirror, but, of course, theydon't. It is virtually as if the rayswere coming from behind the mirror.
"Virtually": the same as if
As far as the eye-brain system isconcerned, the effect is the sameas would occur if the mirror wereabsent and the chess piece were actually located at the spot labeled "virtual image".
Hall MirrorHall Mirror
• Useful to think in terms of Useful to think in terms of imagesimages
“image” you
“real” you
mirror onlyneeds to be half as
high as you are tall. Yourimage will be twice as far from you
as the mirror.
LEFT- RIGHT REVERSALLEFT- RIGHT REVERSAL
Curved mirrorsCurved mirrors
• What if the mirror isn’t flat?What if the mirror isn’t flat?– light still follows the same rules, with local surface normal
• Parabolic mirrors have exact focusParabolic mirrors have exact focus– used in telescopes, backyard satellite dishes, etc.– also forms virtual image
Concave MirrorsConcave Mirrors•Curves inward•May be real or virtual image
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For a real object between f and the mirror, a For a real object between f and the mirror, a virtual image is formed behind the mirror. The virtual image is formed behind the mirror. The image is upright and larger than the object. image is upright and larger than the object.
For a real object between f and the mirror, a virtual image is formed behind the mirror. The position of the image is found by tracing the reflected rays back behind the mirror to where they meet. The image is upright and larger than the object.
For a real object between f and the mirror, a virtual image is formed behind the mirror. The position of the image is found by tracing the reflected rays back behind the mirror to where they meet. The image is upright and larger than the object.
For a real object close to the mirror but outside of the center of curvature, the real image is formed between C and f. The image is inverted and smaller than the object.
For a real object between C and f, a real image is formed outside of C. The image is inverted and larger than the object.
For a real object between C and f, a real image is formed outside of C. The image is inverted and larger than the object.
For a real object between f and the mirror, a virtual image is formed behind the mirror. The position of the image is found by tracing the reflected rays back behind the mirror to where they meet. The image is upright and larger than the object.
For a real object close to the mirror but outside of the center of curvature, the real image is formed between C and f. The image is inverted and smaller than the object.
For a real object between C and f, a real image is formed outside of C. The image is inverted and larger than the object.
For a real object at C, the real image is formed at C. The image is inverted and the same size as the object.
For a real object at C, the real image is formed at C. The image is inverted and the same size as the object.
For a real object between f and the mirror, a virtual image is formed behind the mirror. The position of the image is found by tracing the reflected rays back behind the mirror to where they meet. The image is upright and larger than the object.
For a real object close to the mirror but outside of the center of curvature, the real image is formed between C and f. The image is inverted and smaller than the object.
For a real object close to the mirror but outside of the center of curvature, the real image is formed between C and f. The image is inverted and smaller than the object.
For a real object at f, no image is formed. The reflected rays are parallel and never converge.
For a real object at f, no image is formed. The reflected rays are parallel and never converge.
What size image is formed if the real object is placed at the focal point f?
ConvexConvex Mirrors Mirrors
•Curves outward•Reduces images•Virtual images
–Use: Rear view mirrors, store security…
CAUTION! Objects are closer than they appear!
RefractionRefraction• Light also goes Light also goes throughthrough some things some things
– glass, water, eyeball, air
• The presence of material slows light’s progressThe presence of material slows light’s progress– interactions with electrical properties of atoms
• The “light slowing factor” is called the The “light slowing factor” is called the index of refractionindex of refraction– glass has n = 1.52, meaning that light travels about 1.5 times
slower in glass than in vacuum– water has n = 1.33– air has n = 1.00028– vacuum is n = 1.00000 (speed of light at full capacity)
n2 = 1.5
n1 = 1.0
A
B
Refraction at a plane surfaceRefraction at a plane surface• Light bends at interface between refractive indicesLight bends at interface between refractive indices
– bends more the larger the difference in refractive index
Convex LensesConvex Lenses
Thicker in the center than Thicker in the center than edges. edges. – Lens that converges
(brings together) light rays.
– Forms real images and virtual images depending on position of the object
The Magnifier
Concave LensesConcave Lenses
• Lenses that are Lenses that are thicker at the edges thicker at the edges and thinner in the and thinner in the center. center. – Diverges light rays
– All images are
erect and reduced.
The De-Magnifier
How You See How You See
• Near Sighted – Eyeball is Near Sighted – Eyeball is too long and image focuses too long and image focuses in front of the retinain front of the retina
• Near Sightedness – Concave lenses expand focal length
• Far Sighted – Eyeball is too Far Sighted – Eyeball is too short so image is focused short so image is focused behind the retina.behind the retina.
• Far Sightedness – Convex lense shortens the focal length.
Cameras, in briefCameras, in brief
In a pinhole camera, the hole is so small that light hitting any particular pointon the film plane must have come from a particular direction outside the camera
In a camera with a lens, the same applies: that a point on the film planemore-or-less corresponds to a direction outside the camera. Lenses havethe important advantage of collecting more light than the pinhole admits
pinholeimage atfilm plane
object
image atfilm plane
object
lens