REFERENCES SECTION L

L1: LIGHT SOURCES AND LIGHT RAYS

L1-01: ARC LAMP - PROJECTION OF ARC

Harvey E. White, Physics - An Exact Science, 298.

L1-02: TUNGSTEN-HALOGEN LAMP - PROJECTION OF LAMP

None.

L1-03: LIGHT BULB WITHOUT VACUUM

Instructions for the Use of No. 1524 Demonstration Incadescent Lamp, Sargent Welch.

L1-04: POINT SOURCE - FLASHLIGHT BULB

None.

L1-05: PERSISTENCE OF A FILAMENT

None.

L1-11: INVERSE SQUARE LAW - LIGHT BULB AND RADIOMETER

None.

L1-12: INVERSE SQUARE LAW - OVERHEAD PROJECTOR AND TWO-METER STICK

Simon George and Robert Doebler, Rainbow Glasses and the Inverse Square Law, TPT 32, 110-111 (1994).

L1-21: PINHOLE IMAGE - GROUND GLASS SCREEN

M. Young, Pinhole Imagery, AJP 40, 715-720 (1972).

Reuben E. Alley, Jr., The Camera Obscura in Science and Art, TPT 18, 632-638, (1980).

D. Bissonnette, P. Rochon, and P. Somers, The Complementary Pinhole Camera, TPT 29, 214 (1991).

Thomas B. Greenslade, Jr., Pinhole Images of the Eclipsing Sun, TPT 32, 347 (1994).

Victor Kriss, Measuring Pinhole Images of the Sun, TPT 34, 190-191 (1996).

L1-22: OPTICAL BOARD - PINHOLE CAMERA

None.

L1-23: PINHOLE POLAROID CAMERA

Louise A. Turner, Best Definition with the Pinhole Camera, AJP 8, 365-371, (1940).

Albert V. Baez, Pinhole-Camera Experiment for the Introductory Physics Course, AJP 25, 636-638, (1957).

C.H. Palmer, ed., Optics Experiments and Demonstrations, Experiment B26-The Pinhole Camera by W. T. Plummer, 239.

Instructions Sheet, Polaroid Pinhole Camera.

Lecture Demonstrations Photograph Examples.

L1-24: PINHOLE TV CAMERA

None.

L1-31: LASER LIGHT CAVITY

Richard A. Phillips and Robert D. Gehrz, Laser Mode Structure Experiments for Undergraduate Laboratories, AJP 38, 429-434 (1970).

Norman Whitlatch, Spectrum analysis of optical resonators, AJP 58, 556-560 (1990).

Ferdinand Stanek, R. G. Tobin, and C. L. Foiles, Stabilization of a multi-mode He-Ne laser: A vivid demonstration of thermal feedback, AJP 61, 932-936 (1993).

L1-32: VISIBLE LASER

N. R. Isenor, Mechanical Model of a Q-Switched Laser, AJP 37, 1159-1160 (1969).

H. Weichel, W. A. Danne, and L. S. Pedrotti, Laser Safety in the laboratory, AJP 42, 1006-1013 (1974).

R. C. Nicklin, Laser vs Light Bulb Power Comparison, AJP 43, 111 (1975).

D. G. H. Andrews and D. R. Tilley, A computer model of laser action in the teaching of computational physics, AJP 59, 536-541 (1991).

Michael E. Knotts, Apparatus for Teaching Physics: Making Laser Beams Visible, TPT 31, 402-403 (1993).

L1-33: LASER BEAM EXPANDERS

None.

L2: PLANE MIRRORS

L2-01: OPTICAL BOARD - PLANE MIRROR

J. C. Martinez-Anton, Apparatus for Teaching Physics: A Technique for Making Brighter Rays, TPT 32, 424-425 (1994).

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstration Calculations Sheets.

Lecture Demonstration List of Optical Board Demonstrations.

L2-02: OPTICAL BOARD - RAY DIAGRAM - PLANE MIRROR

Sue Allen, The Gaussian formula and the elusive fourth principal ray, AJP 60, 160-163 (1992).

L2-03: MICROWAVES - REFLECTION

None.

L2-04: VIRTUAL IMAGE DETECTOR - PLANE MIRROR

John W. Layman, That Can't Be: A Virtual Comment, TPT 17, 253-254, (1979).

Lecture Demonstrations Drawing of Virtual Image Demo Apparatus.

L2-05: PERVERTED IMAGE - AXES IN MIRROR

Van E. Wood, Reflections of Vectors: An Illustration, AJP 37, 331 (1969).

Walter Thumm, Questions Students Ask: A Question of Mirror Reflections, TPT 10, 346 (1972).

Thomas W. Norton, Backwards Clock, TPT 10, 401 (1972).

Kenneth W. Ford, Why is your image in a plane mirror inverted left-to-right but not top-to-bottom, TPT 13, 228-229 (1975).

Jomo Benn, Which Mirror Did That?, TPT 29, 529 (1991).

Martin Gardner, Physics Trick of the Month: A Mirror Paradox, TPT 32, 404 (1994).

L2-06: MAGIC TRICK - DISAPPEARING RABBIT

None.

L2-07: PERVERTED IMAGE - LIGHT

Transparency "LIGHT"

L2-21: OPTICAL BOARD - HALF-SILVERED MIRROR

None.

L2-22: INFINITY MIRROR

None.

L2-23: MIRROR BOX

None.

L2-24: PARTIALLY SILVERED CYLINDER

None.

L2-25: LIGHT BULB IN WATER

Albert V. Baez, An Entertaining Demonstration Using Window Glass As A Mirror, AJP 21, 63-64, (1953).

Supplementary Information, Light Bulb in Water Beaker Illusion.

Lecture Demonstration Design Sketch.

L2-26: HALF-SILVERED MIRROR - RAT IN TUBE

None.

L2-41: OPTICAL BOARD - CORNER REFLECTOR

L. C. Corrado, Ray Reversal by the Corner Reflector, AJP 40, 1860-1861 (1972).

N. I. Robb, Teaching Reflection from a Corner Cube Reflector, TPT 29, 255 (1991).

Frank Kowalski, Reflectance Demonstration, TPT 31, 153 (1993).

Paul Chagnon, Optics for People Stuck in Traffic: License Plates, TPT 33, 112-115 (1995).

L2-42: CORNER REFLECTOR - MIRROR TILE

Frank S. Crawford, Cube corner reflectors for sound waves, AJP 59, 176-177 (1991).

L2-43: CORNER REFLECTOR - ROTATING

None.

L2-44: CORNER REFLECTOR - HAND HELD

J. E. Foller and E. J. Wampler, The lunar laser reflector, Sci. Am. 222 (3), 38 (March 1970).

L2-45: MICROWAVES - CORNER REFLECTOR

None.

L2-46: CORNER REFLECTOR - MODELS

None.

L2-61: MIRROR TILES WITH LIGHT BULB

Hector Covarrubias M., Successive reflections of a light beam on a pair of plane mirrors, AJP 58, 565-567 (1990).

L2-62: MULTIPLE REFLECTIONS WITH MIRROR TILES

Frederick L. Brown, Multiple Reflections from Plane Mirrors, AJP 13, 278-280, (1945).

Paul Chagnon, Deck the Halls: Animated Displays II: Multiple Reflections, TPT 30, 488-493 (1992).

Howard E. Evans II, Ray Tracing with Hinged Mirrors, TPT 34, 314-315 (1996).

L2-63: TELEIDOSCOPE

Terrence P. Toepker, Apparatus for Teaching Physics: The 70-mm Kaleidoscope, TPT 33, 536-537 (1995).

L2-64: DUCK-IN KALEIDOSCOPE

Duck Into Kaleidoscope, Exploratorium Recipe No. 107, (1980).

Drawing, Parts List, Supplier Information for Building the Duck into Kaleidoscope.

L2-65: METAMORPHOSIS OF CUBE

Lecture Demonstrations Student Paper: Robin Gruber, Metamorphosis of a Cube, (1980).

L3: CURVED MIRRORS

L3-01: OPTICAL BOARD - CONVEX SPHERICAL MIRROR

Myron Effing, Representing image formation in lenses and mirrors, TPT 15, 178-179 (1977).

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L3-02: OPTICAL BOARD - RAY DIAGRAM - CONVEX MIRROR

Jim Shaw, Ray Optics with a Spherical Surface, TPT 30, 218 (1992).

L3-03: LARGE CONVEX MIRROR

None.

L3-11: OPTICAL BOARD - CONCAVE SPHERICAL MIRROR

H. W. Farwell, The Optical Surfaces of Descartes and Huygens, AJP 9, 255-263 (1941).

G. F. Herrenden-Harker, Caustics by Reflection in a Concave Spherical Reflectting Surface, AJP 16, 272-284 (1948).

Allen Newell and Albert V. Baez, Caustic Curves by Geometric Construction, AJP 17, 145-147 (1949).

Frank Szmulowicz, Conchoid of Nicomedes from reflections and refractions in a cone, AJP 64, 467-471 (1996).

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

Myron Effing, Representing image formation in lenses and mirrors, TPT 15, 178-179 (1977).

L3-12: OPTICAL BOARD - RAY DIAGRAM - CONCAVE MIRROR

Samuel Derman, Ray Tracing with Spherical and Parabolic Reflectors, TPT 28, 590-593 (1990).

Richard Ditteon, A New Sign Convention for Geometrical Optics, TPT 31, 38-40 (1993).

L3-13: OPTICAL BOARD - SPHERICAL ABERRATION IN CONCAVE MIRROR

A. S. Fuller, Primary Aberrations of Mirrors, AJP 29, 687-694 (1961).

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L3-14: LARGE CONCAVE MIRROR

Gordon P. Ramsey, Reflective Properties of a Parabolic Mirror, TPT 29, 240-241 (1991).

Samuel Derman, Letter: Focusing Attention on the Parabolic Reflector, TPT 29, 327 (1991).

L3-15: ROTATING LIQUID MIRROR

D. James Baker, Jr., Demonstration of Fluid Flow in a Rotating System, AJP 34, 647-652 (1966).

Jack Grube, Centripetal force and parabolic surfaces, TPT 11, 109-111 (1973).

W. C. Connolly, Liquid Surface in Rotation, TPT 12, 502 (1974).

Arthur Fisher, Spinning Scopes, Popular Science, October 1987, pp. 76-79, 101-102.

Roy Euclide and Scott Welty, Doing Physics: Fluid Dynamics, TPT 24, 310-311 (1986).

Stephen P. Moran, A new generation of giant eyes gets ready to probe the Universe, Smithsonian Magazine, June 1987, pp. 41-53.

Richard E. Berg, Rotating Liquid Mirror, AJP 58, 280-281, (1990).

Mary Murray, Spinning Mirrors of Mercury, Science News 130, 124-125.

Eureka R & D, Spun Mirrors Now Look Like a Reality, (May 14, 1990).

L3-16: FOCUSING OF HEAT WAVES BY MIRRORS

R. E. Berg, Heat-Wave Focusing by Concave Reflectors, TPT 28, 56-57, (1990).

List of Material Properties, Machinable Grade A Lava, General Electric Ceramics.

Catalog Description, Reflectors for Focusing Radiant Energy, Sargent-Welch.

Instructions for No. 1739 Parabolic Reflectors, Welch Scientific.

Lecture Demonstrations Data Sheet on Heater Elements.

L3-17: FOCUSING OF HEAT WAVES - ARC LAMP AND PARABOLIC MIRROR

None.

L3-18: FOCUSING OF HEAT WAVES - OVERHEAD PROJECTOR

None.

L3-19: PENNY AND PARABOLIC MIRROR

Lecture Demonstrations Ray Diagram for Parabolic Mirrors.

Catalog Description, Opti-Thermal Imager.

Supplementary Information on Illusion Device, "Reality or Illusion?"

Pamphlet, "Mirage" Demonstration.

Andrzej Sieradzan, Teaching Geometrical Optics with the "Optic Mirage," TPT 28, 534-536 (1990).

L3-20: APPARENT REFLECTION FROM REAL IMAGE

None.

L3-21: LIGHT BULB AND PARABOLIC MIRROR

Robert M. Graham, Real Image Produce by a Concave Mirror, TPT 15, 116 (1977).

R. D. Edge, String and sticky tape experiments: Optical Illusions, TPT 22, 591-593 (1984).

Robert M. Graham, Convincing Students of the Existence of a Real Image, TPT 32, 238-239 (1994).

Derek B. Swinson, Chinese "Magic" Mirrors, TPT 30, 295-298 (1992).

L3-22: PENDULUM AND SPHERICAL MIRROR

Terrence P. Toepker, Spherical Mirror Images of Dynamic Objects, TPT 30, 252-253 (1992).

L3-23: IMAGE ON SCREEN USING CONCAVE MIRROR

None.

L3-24: OPTICAL BOARD - SPHERICAL AND PARABOLIC MIRRORS

None.

L3-25: IMAGE LOCATION WITH TV CAMERA - CONCAVE MIRROR

None.

L3-31: GIANT MIRROR - CONCAVE AND CONVEX

None.

L3-32: CYLINDRICAL MIRROR DEMONSTRATOR

None.

L3-41: ANAMORPHIC ART

Lecture Demonstration Explanation of Anamorphic Art.

Clifford L. Miles, Mapping Transform Showing Mirror Equivalence In Concave and Convex Reflectors, AJP 42, 614-616 (1974).

L4: REFRACTION

L4-01: OPTICAL BOARD - RECTANGULAR SLAB

James E. Kettler, Index of Refraction by Reflected and Refracted Rays, TPT 32, 190-191 (1994).

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L4-02: REFRACTION - BEER MUG IN WATER

Michael J. Maloney, Cylindrical lenses and short beers, AJP 43, 741-743 (1975).

Robert E. Prigo, Abel Rosales, Richard B. Harding, and Richard Wormsbecher, One Beer for the Price of Two, AJP 47, 744-745, (1979).

James E. Kettler, Some Optical Effects Using A Hollow Sphere and an Aquarium, TPT 22, 171-172, (1984).

B. F. Melton, A Surprising Demonstration of Total Internal Reflection, TPT 29, 539-540 (1991).

L4-03: REFRACTION - ROD IN WATER

R. C. Nicklin and W. C. Connolly, Rugged Refraction Demonstration, AJP 43, 112 (1975).

Chris Emery, Refractive Puzzle, TPT 31, 413 (1993).

L4-04: REFRACTION - CAN IN WATER TANK

None.

L4-05: REFRACTION IN FISH TANK - PORTABLE

K. Eftaxias, C. A. Londos, and F. Vallianatos, An alternative treatment of the problem of image formation of an object through plane or spherical interfaces, AJP 58, 771-773 (1990).

Antonio B. Nassar, Apparent Depth, TPT 32, 526-529 (1994).

Gordon O. Johnson, Letter: Further Illuminating Comments on Rays and Images, TPT 33, 198-199 (1995).

Albert A. Bartlett, Letter, TPT 33, 199 (1995).

Eugene Mosca, Letter: TPT 33, 199 (1995).

Igal Galili and Fred Goldberg, Using a linear approximation for single-surface refraction to explain some virtual image phenomena, AJP 64, 256-264 (1996).

L4-06: REFRACTION IN CLOUDY WATER

Philip DiLavore, Reflection and Refraction at an Interface, TPT 13, 247-248, (1975).

L4-21: SNELL'S LAW - IMAGE DISTORTION

Jinsong Cui, A Demonstration of the Apparent Ellipticity of the Rising or Setting Sun, TPT 29, 566 (1991).

John B. Johnston, Atmospheric Refraction, TPT 15, 308-309, (1977).

Kevin M. Jones, Scott Lundgren, and Alak Chakravorty, A Calculus of Variations Demonstration: The Gradient Index Lens, AJP 56(12), 1099, (1988).

James Evans, Simple forms for equations of rays in gradient-index lenses, AJP 58, 773-778 (1990).

L4-22: MIRAGE - LASER AND HOT WIRE

A.J. Barnard and B. Ahlborn, Measurement of Refractive Index Gradient by Deflection of a Laser Beam, AJP 43, 573-574, (1975).

Giuseppe Poggi and Carlo Pontiggia, The Mirage in the Lab, AJP 37, 332, (1969).

Iao-Huei Pan, Measurements of Atmospheric Refraction, AJP 42, 965-970 (1974).

P. R. Barker, P. R. M. Crofts, and M. Gal, A superior "superior" image, AJP 57, 953-954 (1989).

J. F. Davis and T. B. Greenslade, Jr., Computer Modeling of Mirage Formation, TPT 29, 47-48 (1991).

L4-23: BENDING OF LASER BEAM IN SUGAR SOLUTION

William M. Strouse, Bouncing Light Beam, AJP 40, 913, (1972).

Pinkston and Crum, Lecture Demonstrations in Acoustics, JASA 55(1), 2-6, (1974).

John B. Johnston, Atmospheric Refraction, TPT 15, 308-309, (1977).

Kevin M. Jones, Scott Lundgren, and Alak Chakravorty, A Calculus of Variations Demonstration: The Gradient Index Lens, AJP 56(12), 1099, (1988).

James Evans, Simple forms for equations of rays in gradient-index lenses, AJP 58, 773-778 (1990).

L4-31: DISAPPEARANCE OF GLASS IN LIQUID

Donald K. Day, A Safe Pyrex "Vanishing Solution," TPT 15, 438, (1977).

Walter C. Connolly, and Thomas L. Rokoske, The Disappearing Dropper, TPT 18, 467, (1980).

William R. Gregg, Tricks of the Trade: An Old Optics Demonstration - Redone More Safely, TPT 31, 40 (1993).

Material Safety Data Sheet, Cargille Immersion Oil Types A & B Code 1248, R. P. Cargille Laboratories, Inc.

L4-41: MICROWAVES - REFRACTION BY PRISM

None.

L4-42: MICROWAVES - INDEX OF REFRACTION

None.

L5: TOTAL INTERNAL REFLECTION

L5-01: OPTICAL BOARD - TOTAL INTERNAL REFLECTION

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L5-02: TOTAL INTERNAL REFLECTION IN LONG TANK

None.

L5-03: FISH IN TANK - TOTAL INTERNAL REFLECTION

None.

L5-04: MICROWAVES - TOTAL INTERNAL REFLECTION

None.

L5-05: IMAGE INVERSION BY PRISM

None.

L5-11: LASER WATERFALL

A. Kshatriya, Water jet as a laser light pipe, AJP 44, 604 (1976).

Samuel Derman, String and sticky tape experiments: Light pipes, hydrostatics, surface tension and a milk carton, TPT 22, 42-43 (1984).

Drawings of UM Lecture-Demonstration apparatus.

L5-12: PLEXIGLASS SPIRAL

P. J. Ouseph, "Colgate-Plus" - An Imperfect Light Pipe, TPT 31, 405 (1993).

L5-13: PLEXIGLASS SPIRAL WITH LASER

Peter J. Cumpson, Light Scattering by Fibers: An Analysis Using the Partial Wave Phase-shift Formalism of Quantum Mechanics, AJP 58, 659-663, (1990).

Dale Edgar, Simulating Optical Fibers, TPT 27, 504-506, (1988).

J. Hellemans, A Simple Demonstration of the Total Internal Reflection in Fibers, TPT 22, 589, (1984).

L5-14: LASER AND PLEXIGLASS TUBE

None.

L5-21: FIBER OPTICS ARRAY

None.

L5-22: FIBER OPTICS ARRAY - PROJECTION

None.

L5-23: FIBER OPTICS TREE

None.

L5-24: FIBER OPTICS - COMMUNICATION LINE

Miguel V. Andres and Oswaldo Contreras, Experiments on optical fiber interferometers and laser modes, AJP 60, 540-545 (1992).

John MacChesney, Working Knowledge: Optical Fibers, Scientific American, August 1997.

L5-31: FRUSTRATED TOTAL INTERNAL REFLECTION - PRISM AND LENS

R. Weigland and J. M. Guerra, Demonstration of the evanescent wave through absorption, AJP 64, 913-916 (1996).

Walter J. Rhein, Demonstration of Penetration of Potential Barriers, AJP 31, 808-809 (1963).

L5-32: FRUSTRATED TOTAL INTERNAL REFLECTION - TWO PRISMS

None.

L5-33: FRUSTRATED TOTAL INTERNAL REFLECTION - TWO PRISMS & LASER

None.

L5-34: FRUSTRATED TOTAL INTERNAL REFLECTION - MICROWAVES

Francisco Albiol, Sergio Navas, and Miguel V. Andres, Microwave experiments on electromagnetic evanescent waves and tunneling effect, AJP 61, 165-169 (1993).

Frank A. Smith, Jr., The Frustrated Wave, TPT 10, 216-217 (1972).

L5-35: FRUSTRATED TOTAL INT REFLEC - MICROWAVES & WAVEGUIDES

None.

L6: LENSES

L6-01: OPTICAL BOARD - CONVERGING SPHERICAL LENS

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L6-02: OPTICAL BOARD - CIRCULAR SLAB

None.

L6-03: OPTICAL BOARD - HYPERBOLIC LENS

None.

L6-04: OPTICAL BOARD - RAY DIAGRAM - REAL IMAGE POS LENS

Stuart Leinoff, Ray Tracing with Virtual Objects, TPT 29, 275-277 (1991).

Harry D. Downing and Walter L. Trikosko, Apparatus for Teaching Physics: Ray Tracing for a Few $, TPT 29, 369-370 (1991).

Diane J. Grayson, Many Rays Are Better Than Two, TPT 33, 42-44 (1995).

Richard Hansgen, Letter: A Different Principal Ray, TPT 33, 198 (1995).

L6-05: OPTICAL BOARD - RAY DIAGRAM - VIRTUAL IMAGE POS LENS

None.

L6-06: MULTIPLE PINHOLES AND LENS RECOMBINATION

Lecture Demonstration Record Form.

Lecture Demonstration Handwritten Description, R.E.Z. III.

L6-07: MICROWAVES - LENS

None.

L6-08: REAL IMAGE OF CONVERGING LENS - LIGHT BULB

None.

L6-09: REAL IMAGE OF CONVERGING LENS

None.

L6-10: IMAGE LOCATION WITH TV CAMERA - LENS

None.

L6-11: OPTICAL BOARD - DEPTH OF FIELD

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L6-12: MAGNIFYING LENS IN WATER

None.

L6-21: OPTICAL BOARD - DIVERGING SPHERICAL LENS

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L6-22: OPTICAL BOARD - RAY DIAGRAM - VIRTUAL IMAGE NEG LENS

None.

L6-31: STRING MODEL - SPHERICAL ABERRATION

Mark Riegel and Brian Holmes, Model of Astigmatism, TPT 26, 96-98, (1988).

L. E. Dodd and C. P. Wiedow, The String Model in Geometrical Optics, AJP 9, 102-106, (1941).

Lecture Demonstrations Design Drawings and Calculations.

Advertisements, Optical Astigmatism Model and Education Products Corp.

L6-32: OPTICAL BOARD - SPHERICAL ABERRATION IN LENS

Arthur S. Jensen, Lens Aberrations - A Classroom Demonstration, AJP 13, 113-115 (1945).

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L6-33: STRING MODEL - CHROMATIC ABERRATION

Mark Riegel and Brian Holmes, Model of Astigmatism, TPT 26, 96-98, (1988).

L. E. Dodd and C. P. Wiedow, The String Model in Geometrical Optics, AJP 9, 102-106, (1941).

Lecture Demonstrations Design Drawings and Calculations.

Advertisements, Optical Astigmations Model and Education Products Corp.

L6-34: OPTICAL BOARD - CHROMATIC ABERRATION IN LENS

Alex J. Dragt, Lie Albegraic Theory of Geometrical Optics and Optical Aberrations, Journal of the Optical Society of America 72, 372-379.

Grovindan Rangarajan, Spherical Aberration and its Correction Using Ray Tracing and Lie Algebraic Methods. (Manuscript).

Diagram of Optical Experiments, Ealing Catalog.

Experiments on Optics Board Using a Mirror Arrangement That Gives Three Rays to Trace (handwritten), Allen Mincer.

Lecture Demonstrations Calculations Sheets.

Lecture Demonstrations List of Optical Board Demonstrations

L6-35: CHROMATIC ABERRATION - POINT SOURCE AND 20 CM LENS

Arthur S. Jensen, Lens Aberrations - A Classroom Demonstration, AJP 13, 113-115 (1945).

L6-36: STRING MODEL - ASTIGMATISM

Mark Riegel and Brian Holmes, Model of Astigmatism, TPT 26, 96-98, (1988).

L. E. Dodd and C. P. Wiedow, The String Model in Geometrical Optics, AJP 9, 102-106, (1941).

Lecture Demonstrations Design Drawings and Calculations.

Advertisements, Optical Astigmations Model and Education Products Corp.

L6-37: ASTIGMATISM

Arthur S. Jensen, Lens Aberrations - A Classroom Demonstration, AJP 13, 113-115 (1945).

L6-38: COMA

Arthur S. Jensen, Lens Aberrations - A Classroom Demonstration, AJP 13, 113-115 (1945).

L6-39: DISTORTION - PINCUSHION AND BARREL WITH 2 IRISES

Arthur S. Jensen, Lens Aberrations - A Classroom Demonstration, AJP 13, 113-115 (1945).

L6-40: DISTORTION - PINCUSHION AND BARREL

Lecture Demonstrations References: Hecht-Zajac, Optics, 184-186, (1973); Pohl, Optik and Und Atomphysik, 40-41, (1967); Sears, Optics 125-127, (1958); Francon, Experiences de Physique, 139-140, (1958).

Lecture Demonstrations Information Sheets.

L6-41: DISTORTED IMAGE - PINCUSHION AND BARREL

Lecture Demonstrations References: Hecht-Zajac, Optics, 184-186, (1973); Pohl, Optik and Und Atomphysik, 40-41, (1967); Sears, Optics 125-127, (1958); Francon, Experiences de Physique, 139-140, (1958).

L6-42: DISTORTION AND CORRECTION

None.

L6-51: OPTICAL BOARD - FRESNEL LENS

None.

L6-52: FRESNEL LENSES - MISCELLANEOUS

None.

L6-53: FRESNEL LENS MAGNIFIER

B. A. Anicin, V. M. Babovic, and D. M. Davidovic, Frensel Lenses, AJP 57(4), 312-316, (1989).

L6-54: OPTICALLY PROGRAMMED TRAFFIC SIGNAL - MODEL

Design Manual for Optically Programed Signals.

Lecture Demonstrations Data on Fresnel Lenses for Optically Programed Traffic Signals.

L6-55: FRESNEL FLASHLIGHT

None.

L6-56: FRESNEL SPOTLIGHT

None.

L6-71: OPTICAL DISC

Hartl Optical Disc, Central Scientific No. 85250, Central Scientific Co., Chicago, IL.

Operating Instructions: Hartl Optical Disc No. 85245, Central Scientific Co., Chicago, IL.

Blackboard Optics and Accessories, Bulletin 114, Klinger Educational Products.

L6-91: ANAMORPHIC LENS

None.

L7: OPTICAL INSTRUMENTS

L7-01: LIGHT METERS

None.

L7-02: FOCAL PLANE SHUTTER

Loren M. Winters, Observations Through a Moving Slot, TPT 32, 376-378 (1994).

L7-03: SHUTTER SPEED OF CAMERA

None.

L7-04: DEPTH OF FIELD AND FIELD OF VIEW

None.

L7-05: VIDEO CAMERA WITH VARIOUS LENSES

None.

L7-06: MINICAM WITH WIDE-ANGLE, TELEPHOTO AND MACROZOOM LENS

None.

L7-11: OPTICAL BOARD - ASTRONOMICAL TELESCOPE

None.

L7-12: OPTICAL BOARD - TELEPHOTO LENS

None.

L7-13: OPTICAL BOARD - GALILEAN TELESCOPE

None.

L7-14: OPTICAL BOARD - REFLECTING TELESCOPE

None.

L7-21: MAGNIFYING GLASS - TV

Lecture Demonstration Record Form.

Jay S. Huebner and Terry L. Smith, Why Magnification Works, TPT 32, 102-103 (1994).

L7-22: MICROSCOPE - TV

None.

L7-23: ASTRONOMICAL TELESCOPE - TV

None.

L7-24: TERRESTRIAL TELESCOPE - TV

None.

L7-25: GALILEAN TELESCOPE - TV

None.

L7-31: PRINCIPAL PLANES

None.

L7-32: FIELD LENS

Lecture Demonstration Record Form.

Ludwik Kowalski, On Field Lenses, TPT 30, 366-367 (1992).

L7-33: OVERHEAD PROJECTOR - DISSECTED

None.

L7-34: SLIDE PROJECTOR - DISSECTED

None.

L7-41: REAL IMAGE - MIRROR AND LENS

None.

L7-42: VIRTUAL IMAGE - MIRROR AND LENS

None.