REFERENCES
REFERENCES SECTION N
N1: CONTINUOUS SPECTRA
- N1-01: PRISMATIC SPECTRUM OF WHITE LIGHT -
POINT SOURCE
- Jukka O. Mattila, Spectral Experiments with White Light, TPT 32, 338-339 (1994).
- N1-02: PRISMATIC SPECTRUM OF WHITE LIGHT -
INCANDESCENT
- None.
- N1-03: PRISMATIC SPECTRUM OF WHITE LIGHT - WATER PRISM
- None.
- N1-04: PRISMATIC SPECTRUM OF WHITE LIGHT - PORTABLE MODEL
- None.
- N1-05: SPECTRA - VISIBLE AND INVISIBLE
- R. Rollefson, Lecture-Demonstration of an Ultraviolet Spectum, AJP 7, 259(1939).
- Richard Bartels and Fred Loxsom, Can You Get a Sunburn Through Glass?, TPT 33, 466-470 (1995).
- Lecture Demonstration Data Sheet on Arc and Mercury-Superpressure Lamps.
- N1-06: POLYPRISM SPECTRA
- Refraction of Light with a Polyprism, Klinger Bulletin 101-1.
- N1-07: VARIATION OF SPECTRUM WITH LAMP INTENSITY
- None.
- N1-08: GOETHE'S PUZZLE
- None.
- N1-11:DIFFRACTION SPECTRUM OF WHITE LIGHT - CARBON ARC
- None.
- N1-12: DIFFRACTION SPECTRA - GRATING ON OVERHEAD PROJECTOR
- Phillip Sadler, Projecting Spectra for Classroom Investigations, TPT 29, 423-427 (1991).
- George A. Burman, Overhead Spectroscopy, TPT 29, 470
(1991).
- N1-13: DIFFRACTION SPECTRUM OF WHITE LIGHT - PORTABLE
- None.
- N1-14: REFLECTION GRATING - LARGE
- None.
- N1-21: COLOR SEPARATION AND RECOMBINATION BY PRISMS
- None.
- N1-22: OPTICAL BOARD - PRISMS - SEPARATE AND RECOMBINE
- None.
- N1-23: FINE RESOLUTION OF SPECTRUM USING TWO PRISMS
- None.
- N1-31: SUN DOG - MODEL
- None.
- N1-32: ICE CRYSTALS - PAPER MODELS
- M. Barlow Pepin, Atmosphere Symphonies, Sky & Telescope, 100-104, (May 1995).
- N1-41: RAINBOW - RAY MODEL
- Lecture Demonstrations Drawing for the Raindrop Ray Model Design.
- Unknown Title, Principles of Geometrical Optics, Chapt 2, 64-65.
- N1-42: RAINBOW - MECHANICAL MODEL
- None.
- N1-43: RAINBOW - GLASS BEAD MODEL
- Frank S. Crawford, Rainbow Dust, AJP 56, 1006-1009, (1988).
- Paul G. Hewitt, On Teaching Why a Rainbow Is Bowshaped, TPT 27, 509-510 (1989).
- Harold A. Daw, A 360 Degree Rainbow Demonstration, AJP 58, 593-595, (1990).
- Rodney J. Kubesh, Computer display of chromaticity coordinates with the rainbow as an example, AJP 60, 919-923 (1992).
- Craig F. Bohren and Alistair B. Fraser, Newton's zero-order rainbow: Unobservable or nonexistent?, AJP 59, 325-326 (1991).
- Alan E. Shapiro, Comment on "Newton's zero-order rainbow: Unobservable or nonexistent?, by Alan E. Shapiro[AJP 59, 325-326 (1991)], AJP 60, 749-750 (1992).
- James A. Lock and Timothy A. McCollum, Further thoughts on Newton's zero-order rainbow, AJP 62, 1082-1089 (1994).
- Albert A. Bartlett, One in a Million: The Orthogonality of
Anti-Crepuscular Rays and Rainbows, TPT 34, 216-217 (1996).
- N1-44: RAINBOW - OPTICAL BOARD
- John Harsch and Jearl D. Walker, Double rainbow and dark band in searchlight beam, AJP 43, 453-455 (1975).
- N1-45: RAINBOW - WATER FLASK
- R. W. Robinett, Homemade Rainbows: A Backyard Experiment, TPT 21, 388-390, (1983).
- Sears, Principles of Optics, 54-55, (The Rainbow).
- Heel and Velzel, The Rainbow, What is Light, 48-51.
- Fred B. Royalty, Making Rainbows in the Classroom, TPT 22, 523, (1984).
- Ira M. Freeman, The Rainbow, TPT, 340.
- J. E. McDonald, Caustic of the Primary Rainbow, AJP 31, 282-284, (1963).
- The Rainbow, TPT 3, 186-187, (1965).
- Herbert H. Gottlieb, Experiments Using a He-Ne Laser, Metrologic Instruments, 52-53, (1973).
- H. Moyse's Nussenzveig, The Theory of the Rainbow, Scientifiic America.
- Transparency from Sears, Principles of Optics, 54.
- Transparency of Water Drop Ray Diagram.
- N1-51: SPECTROMETER - HAND-HELD
- None.
- N1-61:REFRACTION OF LIGHT IN DIAMOND
- Wertschatzung und Eigenschaften von Schmucksteinen, page 9. (tee-hee, har-har)
- Helen Freedman, Demonstrations of the optical properties of diamonds, TPT 19, 250-252 (1981).
N2: LINE SPECTRA
- N2-01:DIFFRACTION SPECTRUM OF MERCURY
- Information and Instructions: Diffraction Grating Replica, Edmund Scientific, Barrington, NJ.
- Stephen Jacobs, Night Spectra Quest, TPT 33, 380 (1995).
- N2-02: DIFFRACTION SPECTRA - THREE SOURCES - EXPENDABLE GRATINGS
- L. H. Greenberg and T. Balez, Spectral Analysis Using a Camera, AJP 40, 319-320 (1972).
- N2-03: DIFFRACTION SPECTRUM OF SODIUM - EXPENDABLE GRATINGS
- Lecture Demonstrations Information Sheet.
- N2-04: DIFFRACTION SPECTRUM OF SODIUM - PROJECTION
- None.
- N2-05: DIFFRACTION SPECTRA - MISCELLANEOUS TUBES
- Nicholas R. Guilbert, Shedding Some Light on Fluorescent Bulbs, TPT 34, 20-22 (1996).
- N2-06: DIFFRACTION SPECTRUM OF MERCURY - SUPERPRESSURE LAMP
- Lecture Demonstrations Data Sheet on Arc Lamp and Mercury - Superpressure Lamp.
- N2-07: DIFFRACTION SPECTRUM OF HYDROGEN - HOLOGRAPHIC GRATINGS
- None.
- N2-08: SPECTROSCOPE - HYDROGEN SPECTRUM
- None.
- N2-09: SPECTROPHOTOMETER
- None.
- N2-21: PRISMATIC SPECTRUM OF MERCURY - SUPERPRESSURE LAMP
- None.
- N2-22: PRISMATIC SPECTRUM OF SODIUM
- None.
- N2-31: ABSORPTION OF SPECTRUM OF CHLOROPHYLL
- None.
- N2-32: ABSORPTION SPECTRA OF GLASS
- Kenneth Brecher, Do Atoms Really "Emit" Absorption Lines?, TPT 29, 454-456 (1991).
- William W. Luo and Hendrik J. Gerritsen, Seeing the Fraunhofer lines with only a diffraction grating and a slit, AJP 61, 632-636 (1993).
N3: COLOR
- N3-01: ADDITIVE COLOR MIXING OF LIGHTS
- Catalog Description, 87390 Color Miixer, CENCO, Central Scientific Co., Chicago, IL.
- Directions for F7183 Color Mixer, Central Scientific Co.
- Isaac Newton, A new theory about light and colors, AJP 61, 108-112 (1993). (Note: This might be a reprint.)
- Dudley H. Towne, Teaching Newton's color theory firsthand, AJP 61, 113-118 (1993).
- Cruse Melvin and Timothy Melvin, Mixing Colors in the Hall, TPT 33, 292-293 (1995).
- N3-02: ADDITIVE COLOR MIXING - PROJECTORS
- William A. Butler, Douglas Davis, and Charles E. Miller, Jr., Color Mixing for a Large Audience, TPT 17, 43, (1979).
- R. D. Edge, String and Sticky Tape Experiments: Demonstrating Additive Primary Colors, TPT 22, 320-322, (1984).
- N3-03: COLOR MIXING WITH DICHROIC SPOTLIGHTS
- None.
- N3-04: POSITIVE COLOR MIXING IN COLOR TV
- lecture Demonstration Record Form.
- N3-05: COLOR MIXING VIA CHROMATICITY DIAGRAM
- Lecture Demonstration Information Sheets and Diagrams.
- N3-06: COLOR WHEEL
- Instructions and Information Sheet: Newton's Color Disk, 65601, Science Kit & Boreal Laboratories, Tonawanda, NY.
- N3-07: COLOR WHEEL - FLUORESCENT
- None.
- N3-08: STROBOSCOPIC COLOR WHEEL
- None.
- N3-09: COLOR THEORY SLIDE
- Instructions, The Use of the Westcott Color Theory Slide in the Class Discussion, Ralph M. Westcott Co., Los Angeles, CA.
- Directions for Using Westcott Color Slide in Testing for Color Blindness.
- N3-21: ADDITIVE FILTERS AND THEIR SPECTRA
- James C. Kernohan, Red, White, Blue, and Black, TPT 29, 113 (1991).
- Harry Rheam, Absorption by Blue and Red Filters, TPT 29, 382 (1991).
- N3-22: SUBTRACTIVE FILTERS AND THEIR SPECTRA
- None.
- N3-23: COLOR PRECEPTION WITH DYES AND FILTERS
- None.
- N3-24: FILTERGRAPH
- Instructions for Cat. No. 3669 Balinkin-Dwight Filtergraph, Welch Scientific Co., Skokie, IL.
- N3-25: SERIES RED FILTERS
- None.
- N3-26: COLOR FILTER SETS
- Sargent-Welch Scientific Company, Instructions for use of 3662 Color Filter Set.
- Sargent-Welch Scientific Company, Instructions for use of Nos. 3661S and 3661T Glass Color Filters
- Description of 26-300 Chance glass color filter set with 13 transmission spectra.
- N3-31: COLOR SEPARATION TRANSPARENCIES
- None.
- N3-32: COLOR SEPARATION TRANSPARENCIES - LARGE
- None.
- N3-33: MAXWELL' S EXPERIMENT -THREE-COLOR MIXING
- None.
- N3-41: SPLITTING OF SPECTRUM INTO COMPLEMENTARY COLORS
- Lecture Demonstrations Record Form.
- N3-42: COLOR MIXING IN PRINTER - CHART
- None.
- N3-43: COLORS REFLECTED FROM COLORED OBJECTS
- None.
- N3-44: THE COLOR OF COPPER
- None.
- N3-45: REFLECTION AND TRANSMISSION FROM GOLD FOIL
- None.
- N3-51: SPECTRUM WITH MINICAM AND VIDEO PROJECTOR
- None.