you are living in the golden age of cell biology
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You are living in the Golden Age of Cell Biology. Advances in Optics and Photonics. Wave-like Properties of Light. refraction. diffraction. Optics. Emission Theory of Vision Light is emitted from the eye and travels to the object, thereby illuminating it. Empedocles 490 - 430 CE. Euclid - PowerPoint PPT PresentationTRANSCRIPT
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You are living in the Golden Age of Cell Biology
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Advances in Optics and Photonics
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Wave-like Properties of Light
refraction diffraction
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Optics
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Empedocles490 - 430 CE
Emission Theory of Vision
Light is emitted from the eye and travels to the object, thereby
illuminating it.
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Ptolemy83 - 161 CE
Euclid330 - 260 BCE
Emission (extramission) Theory of Vision
Light is emitted from the eye and travels to the object, thereby illuminating it.
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Am Psychol. 2002 Jun-Jul;57(6-7):417-24.
Fundamentally misunderstanding visual perception. Adults' belief in visual emissions.
Winer GA, Cottrell JE, Gregg V, Fournier JS, Bica LA.Department of Psychology, Ohio State University, 142 Townshend Hall, Columbus, OH 43210-1222, USA.The authors reviewed research about a profound misconception that is present among college students, namely, the belief that the process of vision includes emanations from the eyes, an idea that is consistent with the extramission theory of perception, which was originally professed by early Greek philosophers and which persisted in scholarly circles for centuries. The authors document the strength and breadth of this phenomenon and the object failure of traditional educational techniques to overcome this belief, and they reveal that students are leaving psychology courses with a flawed understanding of one of the most studied processes in the history of psychology--visual perception. Some suggestions are offered for overcoming this misconception in traditional college classroom settings.
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Hero’s PrincipleLight rays traveling through
homogeneous media in straight lines
Hero(n) of Alexandria (10 - 70 CE)
“Mechanics & Optics” (~55 CE)
“Principle of Reflection”
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The “Father of Optics”
“Book of Optics” (1021)
Ibn al-Haytham(965 - 1039)
Born in Basra
Intromission Theory of Vision
Light transmits “physical forms” to the eye
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Glass Production
~ 3000 BCE First evidence of glass production
~ 700 BCE First lenses appear (crystal)
~ 250 BCE Glass blowpipe appears
~ 1000 CE Commercial glass production
~ 1050 “Reading Stones”
~ 1250 Glass lenses manufactured
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Pierre de Fermat(1601 - 1665)
Issac Newton(1643 - 1727)
Ray Optics
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Fermat’s PrincipleIn an inhomogeneous
medium, light always travels the path of least time.
Pierre de Fermat(1601 - 1665)
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QuickTime™ and aTIFF (Uncompressed) decompressor
are needed to see this picture.
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QuickTime™ and aTIFF (Uncompressed) decompressor
are needed to see this picture.
Pond Ripples Electromagnetic Flux
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Newtonian View of Light Propagation
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Wave Nature of Light
Under some conditions, light behaves as an electromagnetic wave (Maxwell, 1855). In this model, electric and magnetic fields oscillate perpendicular to one another and to the direction of propagation of the light wave.
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Some Properties of Light
refraction diffraction
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n1 < n2 external refraction
n1 > n2 internal
refraction
rays bend toward the “normal”
rays bend away from the “normal”
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Refraction occurs at the interface between media of different densities due to variations in the speed of light in these media
air glass water air
Refractive index (n) =speed of light in medium speed of light in air
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Refraction at a boundary between two media of different refractive indices, where n2 > n1
monochromaticwavefront
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AB = = BC =d1
sin I1
d2
sin I2
n1 sin I1n2 sin I2=
n2 sin I2
c t
n1 sin I1
c t=
“Snell’s Law”
d1 = v1t = tcn1
d2 = v2t = tcn2
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Refractive dispersion of “white’ light
n varies with wavelength
n(blue) > n(red)
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Total Internal Reflection
sin c = n1
n2 Reflecting Prism
Optical Fiber
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Total Internal Reflection in an Optical Fiber
n1 > n2
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Beam Splitters
partially reflective mirror
thin glass plate
beam combiner
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Compression of a wave front in a medium of high refractive index
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Refraction of a planar wave front by a thin lens
(bi) convex lens
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Refraction of a planar wave front by a thin lens
Convergence happens at positive lens elements
image(real)
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Divergence happens at negative lens elements
(bi) concave lensimage
(virtual)
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Real and Virtual Images
A “real image” is formed on the retina by light that actually passes through the image point.
e.g., an image observed through a window
A “virtual” image is formed by light that behaves as though it diverges from a image point through which it does not actually pass.
e.g., a mirror image
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Reflection of light at a mirrored surface
angle of reflection = angle of incidence
virtual imageobject
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A mirror projects a virtual image