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Code Number: 7B13.50
Demo Title: Blacklight Demonstrations
Condition: Excellent
Principle: Excitation with Ultra-Violet Light
Area of Study: Chemistry and Physics of the Environment
Equipment:
24 inch Black Lights (2), Black light Posters (2), Fluorescent Chalk, Black Light (4 foot), 48 inch Black Lights, Fluorescent Mineral Sets (Short and Long Wavelength UV), Fluorescent dyes, Fluorescent sheet and stars, tonic water, light sticks.
Procedure:
See also 7B13.50 in Modern Physics.
Clamp the black lights to a table and turn on. Turn off the room lights and observe the posters and the chalk writing. Black Lights have also been installed over the blackboard in LR1. The minerals come as two sets. One set is sensitive to short wavelength UV light and the other is sensitive to long wavelength UV.
Tonic water contains quinine which is also fluorescent.
Light sticks contain fluorescent materials. Place an unactivated light stick under a black light and observe.
If you point a green laser pointer at a fluorescent orange object, the spot will be yellow. You can go one step beyond this and shine the green laser pointer at a steep angle onto the glow doodler. The spot on the glow doodler will be yellow, but the input, transmitted, and reflected beams will all be green.
Point a green or purple laser beam through extra virgin olive oil and it will fluoresce in the yellow or orange.
References:
- Jennifer J. Birriel, "Fluorescent tonic water", TPT, Vol. 55, #2, Feb. 2017, p. 128.
- Gorazd Planinšič, "Fluorescence and Phosphorescence: Easier to Investigate than to Spell", TPT, Vol. 54, #7, Oct. 2016, p. 442.
- Wen-Tang Lee, Richard Chin-Wei Chang, "Another Colorful Conundrum", TPT, Vol. 52, #8, Nov. 2014, p. 504.
- M. Farooq Wahab, Gordon R. Gore, "Deeper Insight into Fluorescence--Excitation of Molecules by Light", TPT, Vol. 51, #5, May 2013, p. 306.
- Matt Lowry, "Colorful Conundrum", TPT, Vol. 44, #7, Oct. 2006, p. 474.
- Gordon R. Gore, "Black Light and Light Sticks", TPT, Vol. 43, #3, Mar. 2005, p. 184.
- Tom Donohue and Howard Wallace, "Ultraviolet Viewer", TPT, Vol. 31, #1, Jan. 1993, p. 41.
- Karl C. Mamola, Apparatus for Teaching Physics, "Ultraviolet Viewer", TPT, Vol. 31, #1, Jan. 1993, p. 41.
- Vincent Buckwash, "Ways to Demonstrate Center of Gravity", TPT, Vol. 14, #1, Jan. 1976, p. 39, also A Potpourri of Physics Teaching Ideas - Mechanics, p. 95.
- Richard J. Fitzgerald, "Frog fluorescence", Physics Today, Vol. 70, #5, May 2017, p. 23.
- Gabriela S. Schlau-Cohen, Joseph Berry, "Photosynthetic Fluorescence, from Molecule to Planet", Physics Today, Vol. 68, #9, Sep. 2015, p. 66.
- O-760: "Detergent Boxes & Ultraviolet", DICK and RAE Physics Demo Notebook.
- 50 Fun Experiments for the Mad Scientist in You, "Glowing Hands", National Geographic Kids, p. 74.
- 50 Fun Experiments for the Mad Scientist in You, "Highlighted Water", National Geographic Kids, p. 72.
- Jodi and Roy McCullough, "Ultraviolet Light with a Power Penz-Secrets", The Role of Toys in Teaching Physics, p. 4.206.
- Martin Gardner, "A Blacklight Code", Science Tricks, p. 67.
- Janice VanCleave, "13, Brighter", Engineering For Every Kid: Easy Activities that Make Learning Science Fun, p.95.
- Readers Digest, "Glowing Minerals", Facts and Fallacies, Wonders of the Natural World, p. 16.
- T. D. Rossing, C. J. Chiaverina, "# 6, Detecting Ultraviolet Light", Light Science, Physics and Visual Arts, p. 148.
- Instruction for the Use of #12-132 Concentrated Fluorescent Dyes Set, February 1995.
- GeoScience Industries, "Fluorescents", Minerals that Glow Under Ultra-Violet Light.