Exercise: For what purposes do we make visual representations?
Visualisation is as old as humanity Paleolithic cave paintings, Lascaux, France, ca years ago. Image from ure/arcnat/lascaux/en/ Paleolithic figurine, “Venus of Willendorf,” ca years old. Image from Wikipedia These are visual representations of objects that are remembered or imagined – products of abstract visualisation.
Human seeing is built of multiple components Detection: Light vs. dark Motion, direction Patterns, orientation Edges Contrast: Gradients, shading Relative distance & size - parallax, stereopsis Color discrimination Object discernment and Object recognition, visual computation
Human seeing is built of multiple components: detection, contrast, object discernment
Human seeing is built of multiple components: object discernment Spring peeper (frog), Pseudacris crucifer Image from A classic illustration of object-background discrimination
Exercise: What is an image?
Wavelength is inversely proportional to frequency: λ = c/ ν Energy is directly proportional to frequency: E = h ν and inversely proportional to wavelength: E = hc/ λ Most imaging depends on manipulating and detecting electromagnetic radiation E-M radiation is is usually treated as propagating waves.
Refraction changes the direction of propagation at an interface Light waves travel more slowly in media such as glass or water Image from This website has some nice introductory optics material.
Index of refraction is a measure of resistance to light propagation Refractive index = speed of light in vacuum / speed of light in material ⇒ Snell's law:
Index of refraction depends on wavelength, and is different for different materials Wavelength dependence of refractive index for some glasses. This function is also known as a dispersion curve. visible
Focus is a composite effect of refraction (or of reflection) from Hecht and Zajac, Optics
The focusing effect of a lens can reconstruct wavefronts from an object. This is known as image formation. 1/f = 1/s o + 1/s i (the Gaussian Lens equation)
An image can also be formed by removing all the unfocused rays. This is the principle of a pinhole camera. This CCD pinhole camera is only $65 at spygadgets.com
Undesigned lenses can form images Flower in the background imaged through hanging dew drops From Thus imperfect eyes can be useful.
Parabolic surfaces are used to focus radiofrequency signals and sunlight. satellite communication: satellite dish antenna." Online Art. Encyclopædia Britannica Online.. Your home satellite dish has the shape of a part of a paraboloid. A radio telescope works the same way, but with a larger dish. A cylindrical paraboloid reflector makes an effective solar heat collector. The center pipe usually has water or another fluid pumped through it.
Each point on a parabola will reflect normally- incident light to the parabola's focus point. normal (=90°) incidence The surface formed by rotating a parabola about its axis is a paraboloid. axis A parabolic refracting surface (e.g. a glass lens) will also focus parallel rays to a point.
A discontinuous array of reflectors can approximate a larger parabolic dish The Solar One solar power station Barstow, California, 1993 PIX Number Sandia National Laboratories National Renewable Energy Laboratory U.S. Department of Energy copyright, U.S. Department of Energy The Solar One mirror array as seen on Google Earth.
Likewise, a discontinuous array of refracting surfaces can approximate a lens A Fresnel lens (right) has most of the refracting surface of a solid spherical lens (left). A Fresnel lens can give the same focusing power with much less glass, so it can be much thinner and lighter.