REFERENCES
REFERENCES SECTION I
I1: THERMAL PROPERTIES OF MATTER
- I1-01: THERMOMETERS
- Louise Diehl Patterson, Thermometers of the Royal Society, 1663-1768, AJP 19, 523-535, (1951).
- William R. Barron, Temperature Scales, AJP 25, 326 (1957).
- Walter Thumm and Duncan McArthur Hall, Special Relativity and High Temperature, TPT 10, 507, (1972).
- Mario Iona, History of the Fahrenheit Scale, TPT 11, 503, (1973).
- Carl B. Boyer, Early Principles in the Calibration of Thermometers, AJP 10, 176-180, (1942).
- George D. Nickas, A Thermometer Based on Archimedes' Principle, AJP 57, 845-846, (1989).
- Ronald Geballe, Note on "A thermometer based on Archimedes' principle," by George D. Nickas [AJP 57, 845-846 (1989)], AJP 59, 90 (1991).
- I1-11: THERMAL EXPANSION - BALL AND HOLE
- Lecture Demonstration Apparatus Diagram.
- Paul Hewitt, Expansion of Nothing.
- I1-12: THERMAL EXPANSION - BALL AND RING
- Instructions for the Use of No. 1661 Ball and Ring Apparatus, Welch Scientific Co. Chicago, Ill.
- Directions for Use: Ball and Ring, Leybold-Heraeus Gmbh & Co., Germany.
- Sutton, Demonstration Experiments in Physics, Demonstration H-15. Ball and Ring.
- I1-13: THERMAL EXPANSION - BIMETAL STRIP
- None.
- I1-14: THERMAL EXPANSION OF ALUMINUM - OPTICAL LEVER
- None.
- I1-15: THERMAL EXPANSION - PIN BREAKER
- Operating Instructions, Cenco-Miller Forces in Thermal Expansion Apparatus No. 77430, Central Scientific Co., Chicago, Ill.
- Lecture Demonstration Data Sheet for Pin Breaker Pins.
- C. H. Anderson and W. H. Morewood, How things work: Long rails, TPT 17, 601 (1979).
- I1-16: THERMAL CONTRACTION OF CUPS WITH LN
- None.
- I1-17: THERMOSTAT - MODEL
- None.
- I1-18: BIMETALLIC STRIP THERMOMETERS
- None.
- I1-21: WATER NEAR 4 DEGREES CELLCIUS
- Lecture Demonstration: J. Phillips; Handwritten Page of Calculations, (July 31, 1991).
- I1-22: WATER DENSITY VS TEMPERATURE
- None.
- I1-31: RUBBER BAND ENGINE
- George Calingaert, A Simple Demonstration of the Carnot Cycle, Journal of Chemical Education, August 1952, pp. 405-406.
- J. G. Mullen, George W. Look, and John Konkel, Thermodynamics of a simple rubber-band heat engine, AJP 43, 349-354 (1975).
- J. G. Mullen, Ronald Wasserstein, and Louis Burmeister, On Optimiziing an Archibald Rubber-Band Heat Engine, AJP 46(11), 1107-1110, (1978).
- S. L. Stong, The Amateur Scientist - "Some Delightful Engines Driven by the Heating of Rubber Bands," Scientifec American, 118-122.
- Lester G. Paldy, Rubber Bands and Cryoginecs, AJP 32, 388, (1964).
- J. B. Brown, Thermodynamics of a Rubber Band, AJP 31, 397, (1963).
- H. B. Carroll, M. Eisner, and R. M. Henson, Rubber Band Experiment in Thermodynamics, AJP 31, 808, (1963).
- Emmanuel P. Papadakis, Undergraduate Experiment on Elasticity of Rubber Bands, AJP 31, 938-939, (1963).
- Feynman Lectures, Section 45-2 Applications.
- Meiners, Physics Demonstration Experiments, Vol 2, 766-767. (1970).
- I1-32: RUBBER BAND CONTRACTION DURING HEATING
- J. B. Brown, Thermodynamics of a Rubber Band, AJP 31, 397 (1963).
- Bruce Denardo and Richard Masada, Rubber Hysteresis Experiment, TPT 28, 489-491 (1990).
- G. Savarino and M. R. Fisch, A general physics laboratory investigation of the thermodynamics of a rubber band, AJP 59, 141-145 (1991).
- I1-41: THERMOELECTRIC MAGNET
- Apparatus Description, 557 11 Thermoelectric Magnet, Leybold Co.
- I1-42: THERMOELECTRIC FAN
- Instructions for Model TD-8550 Thermoelectric Converter, Pasco Scientific Co., Hayward, CA.
- Stanislaw Bednarek, Thermoelectric motor, AJP 63, 1051-1052 (1995).
- I1-43: THERMOCOUPLE
- None.
- I1-51: RUBBER AT LN TEMPERATURE
- Martin H. Edwards, Cooling by Immersion in Liquid Air, AJP 20, 313-314, (1952).
- Kathy Malone and Tejwant Datta, Beware the Frozen Squash Ball, TPT 32, 351 (1994).
- I1-52:TUNING FORK AT LN TEMPERATURE
- None.
- I1-53: FLUORESCENCE AT LN TEMPERATURE
- None.
- I1-61: DUST EXPLOSION
- "Dust Explosion," 26-(4.5) Meiners, 769.
- I1-62: DUST EXPLOSION MODEL
- George Barnes, An Experiment on Area-to-Volume Ratios, TPT 28, 403-405 (1990).
- I1-63: HYDROGEN EXPLOSION
- None.
- I1-64: BURNING CANDLE - COMBUSTION PROCESS
- Lecture Demonstration Formula Sheet.
John H. Rosengren, Old Experiment - New Twist, Elementary School Science Bulletin, nationa Science Teachers Association, November 1962, pages 10-11.
- Hubert N. Alyea, Combustion of a Candle, Journal of Chemical Education 40, Number 2, February 1963, page 131.
Bassam Z. Shakhashiri, Chemical Demonstrations, Volume 2 (University of Wisconsin Press, 1985) Section 6.13 Combustion of a Candle in Air, pages 158-161.
- Samuel Morris and Alvah John Washington Headlee, Lecture Experiments in General Chemistry, I. The Rusting of Iron, Journal of Chemical Education, ? , pages 637-638.
- Henry A. Bent, Einstein and Chemical Thought, Journal of Chemical Education 57, Number 6, June 1980, pages 395-405.
- Jeremy B. Caplan, Hendrik J. Gerritsen, and Jason S. LeDell, The Hidden Complexities of a "Simple" Experiment, TPT 32, 310-314 (1994).
- I1-71: SHAPE-MEMORY ALLOY - THERMOBILE
- L. McDonald Schetky, Shape Memory Alloys, Scientific American, (Nov. 1979).
- Kevin Sanders, Miracle Metal, Science Digest, (Oct. 1981).
- Kevin Sanders, Grassroots Genius, Science Digest, (Mar. 1982).
- R. D. Spencer and Michael J. Harrison, Demonstration Solid State Engine, AJP 52(12) , (Dec. 1984).
- Earl Zwicker, Ed McNeil an Norbert Zarumba, Doing Physics: A Mystery
Heat Engine, TPT, (Sept. 1984).
- Frederick E. Wang, Society of Automotive Engineers Publication, SAE Technical Paper Series 851495: The Thermobile Nitinol Engine, (Sept. 9-12, 1985).
- Jane A. Slezak and Ronald W. Veresko, Undergraduate Investigation of Nitinol, TPT 30, 42-43 (1992).
- I1-72: SHAPE-MEMORY ALLOY- ICEMOBILE
- Earl Zwicker, William Kopp, Arthur Schmidt and E McNeil, Doing Physics:
The Icemobile, TPT, (Sept. 1985).
- I1-73: SHAPE-MEMORY ALLOY - COOL CRAFT
- Instructions for Cool-Craft, Innovative Technology International, Inc., Beltsville, MD.
- I1-74: SHAPE-MEMORY ALLOY - CLOVER
- None.
I2: TRANSFER OF HEAT
- I2-01: CROOKES' RADIOMETER
- Gordon F. Hull, Concerning the Action of the Crookes Radiometer, AJP 16, 185-186, (1948).
- H. V. Neher, Light-Pressure Tube, AJP 29, 666-668 (1961).
- Arthur E. Woodruff, The Radiometer and How it Does Not Work, TPT 6, 358-363, (1968).
- Pamphlet, The Radiomete: What Makes it Work?, Winsor Electronics, Inc., Wheaton, Ill.
- I2-02: CROOKES' RADIOMETER - DOUBLE
- Instructions for Nos. 1733 and 1735 Radiometers, Welch Scientific Co., Chicago, Ill.
- I2-03: CROOKES' RADIOMETER - ROTATION REVERSAL
- Frank S. Crawford, Running Crookes' radiometer backwards, AJP 53, 1105 (1985).
- I2-04: WIEN' S LAW OF THERMAL RADIATION
- H. Richard Crane, The cold night sky, TPT 22, 284 (1984).
- W. G. Rees and C. Viney, On cooling tea and coffee, AJP 56, 434-437 (1988).
- Colm T. O'Sullivan, Newton's law of cooling - A critical assessment, AJP 58, 956-960 (1990).
- Craig F. Bohren, Comment on "Newton's law of cooling - A critical assessment," by Colm T. O'Sullivan, [AJP 58, 956-960 (1990)], AJP 59, 1044-1046 (1991).
- Thomas B. Greenslade, Jr., The Coffee and Cream Problem, TPT 32, 145-147 (1994).
- Wei Lee, Letter: Coffee and Cream, TPT 32, 326-327 (1994).
- I2-05: LESLIE'S CUBE
- Cenco Instruction sheet and catalog entry.
- I2-06: THERMOPILE WITH AUDIO OSCILLATOR
- Instructions for Use and Care of Cat. No. 81071 Radiation Thermopile, Central Scientific Co., Chicago, Ill.
- Circuit Diagram, Thermal Controlled Oscillator (Blue Print), Dec. 1979.
- I2-07: THERMOPILE WITH DVM
- None.
- I2-08: RADIATIVE HEAT TRANSFER
- None.
- I2-09: DEWAR - TRANSPARENT WITH LN
- Robert J. Soulen, Jr., James Dewar, His Flask and Other Achievements,
Physics Today, March 1996, pages 32-37.
- I2-10: DEWARS - SILVERED AND UNSILVERED
- None.
- I2-21: THERMAL CONDUCTIVITY IN METALS
- Operating Instructions, Heat Conductivity Demonstrator, Cenco Cat. No. 77531, Central Scientific Co., Franklin Park, Ill.
- Lecture Demonstrations List of Thermal Property Data for Various Metals.
- Albert Diaz-Guilera, On heat conduction in one-dimensional solids, AJP 58, 779-780 (1990).
- Ismael Rafols and Jordi Ortin, heat conduction in a metallic rod with Newtonian losses, AJP 60, 846-852 (1992).
- I2-22: THERMODYNAMICS BY TOUCH
- None.
- I2-23: THERMAL CONDUCTIVITY IN METALS - PROJECTION
- Teacher's Guide for Heat Conductivity Apparatus, Cat. No. DPS-0090, Developmental Corp. of America, (1987).
- I2-24: THERMAL CONDUCTIVITY IN WATER
- None.
- I2-25: THERMAL CONDUCTIVITY IN BUILDING MATERIALS
- Determination of the Insulating Properties of Building Materials: A Laboratory Excercise.
- Lecture Demonstration Table of Thermal Properties for Building Materials.
- I2-26: LEIDENFROST PHENOMENON
- Owen F. Gaede, A Thought-Provoking Demonstratio in Heat, TPT 15, 487-488, (1977).
- Jearl Walker, Drops of Water Dance on a Hot Skillet and The Experimenter Walks on Hot Coals, The Amateur Scientist, ?, 126-131, (?).
- G. Guido Lavalle, P. Carrica, V. Garea, and M. Jaime, A boiling heat transfer paradox, AJP 60, 593-597 (1992).
- I2-27: THERMAL EQUILIBRIUM BETWEEN ALUMINUM
AND COPPER
- None.
- I2-41: CONVECTION - POWDER IN WATER
- Ronald M. Cosby, Natural Convection in a Stratified Fluid, TPT 30, 434-435 (1992).
- I2-42: FALLING CANDLE
- John McKinley, What Happens to a Candle Flame in an Orbiting
Spacecraft?, TPT 20, 261, (1982).
- Meiners, Physics Demonstration Experiments, Section 8-3.7, page 146.
- I2-43: CONVECTION - HOT PLATE
- None.
- I2-44: CONVECTION - CANDLE IN CYLINDER
- None.
I3: GASES
- I3-01: BAROMETER - ANEROID TYPE
- Dean O. Kuethe, Confusion about pressure, TPT 29, 20-22 (1991).
- I3-02: BAROMETER - WEIGHT PARADOX
- E. U. Condon, Three Catch Questions, AJP 3, 85-86 (1935).
- Richard M. Sutton, Simplicity in demonstrating physics, AJP 24, 299 (1956).
- John B. Hart, Balance Barometer, AJP 26, 199 (1958).
- S. W. Leifson, Another Hydrostatic Paradox, AJP 28, 557 (1960).
- R. W. Pohl, Another Hydrostatic Paradox, AJP 29, 369-370 (1961).
- Wallace A. Hilton, Little Thinkers: Mental Gymnastics, TPT 2, 139 (1964).
- Meiners, Physics Demonstration Experiments, Section 16-4.9 Hydrostatic Paradox, page 385.
- J. B. Brown, J. C. Dore, C. Isenberg, and S. J. Rogers, Pascal's demonstration experiment: Weighing the atmosphere, AJP 63, 886-888 (1995).
- I3-03: GALILEO'S THERMOSCOPE
- Operating Instructions and Parts List for Magnehelic Differential Pressure Guage, Dwyer Instruments.
- I3-04: GALILEAN THERMOMETER
- None.
- I3-11: WATER BARAMOETER - BOTTLE COLLAPSE
- Russell Akridge, Water Barometer, TPT 31, 110-111 (1993).
- I3-12: WATER BAROMETER - CAN CRUSHER
- None.
- I3-13: INVERTED GLASS OF WATER
- Hans Weltin, A Paradox, AJP 29, 711-712 (1961).
- Moti Nissani, Clifford L. Maier, and Norma Shifrin, A Guided Discovery Exercise for Introductory Physics Labs, TPT 32, 104-107 (1994).
- I3-14: MAGDEBURG HEMISPHERES
- Ernest Hammond, Demonstration of Atmospheric Pressure, TPT 3, 67, (1965).
- I3-15: MAGDEBURG HEMISPHERES - PORTABLE
- None.
- I3-16: COLLAPSE OF CAN - LARGE PUMP
- None.
- I3-17: COLLAPSE OF CAN - PORTABLE PUMP
- None.
- I3-18: VACUUM BAZOOKA
- Richard E. Berg, Demo Hints: Vacuum "Bazooka," from PIRA Newsletter.
- I3-19: LIFTING USING AIR PRESSURE
- None.
- I3-31: IDEAL GAS LAW - VOLUME OF ONE MOLE
- Frederic R. Stauffer, An Estimate of Avogadro's Number, TPT 29, 252-254 (1991).
- Garcia Brizuela and Alfredo Juan, An Easy Method for Measuring CO2 Molecular Weight, TPT 30, 408-409 (1992).
- I3-32: ISOBARIC EXPANSION OF AIR
- None.
- I3-33: HELIUM BALLOON ON LIQUID NITROGEN
- None.
- I3-41: BOYLE'S LAW - PROJECTION
- Thomas B. Greenslade, Jr., Apparatus Review: The EME Boyle's Law and Absolute Zero Apparatus, TPT 29, 116-117 (1991).
- Changde Wei, Improving the Syringe Method for Demonstrating Boyle's Law, TPT 32, 446-447 (1994).
- I3-42: BOYLED MARSHMALLOWS
- Operation and Maintenance Manual for E.M.E. Boyle's Law and Absolute Zero Unit, Educational Materials and Equipment Co.
- Graph of Temperature vs. Pressure (with transparency).
- Calculation Sheets, Performance Check (hand written).
- I3-43: TIRE PRESSURE - UNLOADED AND LOADED
- John Sperry and Evan Jones, How Do Tubeless Tires Support an Auto, TPT 32, 174 (1994).
- Samuel K. Clark, Editor, Mechanics of Pneumatic Tires, U. S. Dept. of Transportation, National Highway Traffic Safety Administration, Washington, D. C. 1981, Section 4.8. Mechanism of Load Carrying - Infinitely Flexible Membrane, pages 237-245, pages
728-730.
- I3-51: CHARLES' LAW - PROJECTION
- Operation and Maintenance Manual for E.M.E. Boyle's Law and Absolute Zero Unit, Educational Materials and Equipment Co.
- Graph of Temperature vs. Pressure (with transparency).
- Calculation Sheets, Performance Check (hand written).
- Thomas B. Greenslade, Jr., Apparatus Review: The EME Boyle's Law and Absolute Zero Apparatus, TPT 29, 116-117 (1991).
- Robert Otani and Peter Siegel, Determining Absolute Zero in the Kitchen Sink, TPT 29, 316-317 (1991).
- I3-52: CONSTANT VOLUME GAS THERMOMETER - ABSOLUTE ZERO
- Meiners, Section 25-2, 753-754, (Physics Demonstration Experiments, Vol. 2).
I4: CHANGES OF STATE
- I4-01: PVT PHASE DIAGRAMS FOR CO2 AND H2O
- Frank L Verwiebe, Models of Thermodynamic Surfaces, AJP 3, 179-181
(1935).
- M. W. Zemansky and C. R. Herman, The Gibbs and Mollier Thermodynamic
Surfaces, AJP 4, 194-196 (1936).
Frank L. Vereiebe, A P-V-T Diagram of the Allotropic Forms of Ice, AJP 7,
187-189 (1939).
- Jesse W. M. DuMond, Construction of Thermodynamic Models for
Elementary Teaching, AJP 9, 234-237 (1941).
- James E. McDonald, Homogeneous Nucleation of Vapor Condensation. I.
Thermodynamic Aspects, AJP 30, 870-877 (1962).
- I4-02: PVT SURFACE - TRANSPARENT
- None.
- I4-03: LATENT HEAT - ICE TO WATER TO STEAM
- James L. Hunt and Tracy L. Tegart, Measuring the Heats of Water, TPT 32, 545 (1994).
- I4-11: BOILING AT REDUCED PRESSURE
- None.
- I4-12: BOILING WATER BY PUMPING
- None.
- I4-13: CHANGE OF STATE IN LN - POPPING CAN LID
- P. A. Knutson and G. L. Salinger, A Simple Measurement of the Heat of Vaporizattion of Liquid Nitrogen, TPT 7, 288-289 (1969).
- R. G. Hunt and G. L. Salinger, Qualitative Demonstrations and Experiments Using Liquid Nitrogen, TPT 7, 289-290 (1969).
- I4-14: CHANGE OF STATE WITH BANG
- None.
- I4-15: CONDENSATION OF STEAM - GALLON CAN COLLAPSE
- James E. Stewart, The Collapsing Can Revisited, TPT 28, 144 (1991).
- Jukka O. Mattila, Physics at the Fire Station, TPT 26, 440 (1988).
- I4-16: DRINKING BIRD
- Julius Sumner Miller, Physics of the Dunking Duck, AJP 26, 42-43 (1958).
- Jerry L. Gaines, Dunking Duck, AJP 27, 189-190 (1959).
- Harry E. Stockman, Dunking Duck without Liquid, AJP 29, 335-336 (1961).
- Harry E. Stockman, Secret of the Dunking Duck, AJP 29, 374-375 (1961).
- Kemp Bennett Kolb, "Reciprocating" Engine, TPT 4, 121-122 (1966).
- Drinking Duck Shutter, TPT 5, 342 (1967).
- David L. Frank, The Drinking Bird an the Scientific Method, Journal
of Chemical Education 50, No. 3, March 1973, page 211.
- Carl Bachhuber, Energy from the evaporation of water, AJP 51, 259-264
(1983).
- Robert E. Wagner, Physical Chemistry of the Drinking Duck, one page,
source unknown.
- Edmund Scientific Information an Instructions, "Herbert the happy bird."
- Robert Mentzer, The Drinking Bird - The Little Heat Engine that Could, TPT 31, 126-127 (1993).
- I4-17: AIR BALLOON ON LIQUID NITROGEN
- None.
- I4-18: PULSE GLASS
- Julius Sumner Miller, Remarks on the Pulse Glass, AJP 25, 120 (1957).
- The Welch Scientific Company, Instructions for use of Nos. 1665 and
1665A Pulse Glasses.
- I4-19: CONDENSATION OF STEAM - SODA CAN COLLAPSE
- James McGahan, Collapsing Soda Cans and Efficiency, TPT 28, 550-551 (1990).
- I4-31: ICE BOMB
- Sargent-Welch Scientific Company, Instructions for use of No. 1670
Ice Bomb.
- Lecture-Demonstration data on galvanized steel fittings for UM ice bomb.
- Herbert M. Reese, Freezing in Water Pipes, AJP 19, 425-426 (1951).
- David Miller Raybin, The Stones of Spring and Summer, TPT 27, 500-502 (1989).
- I4-32: FREEZING WATER BY PUMPING
- Haym Kruglak and Paul M. Loofboro, Freezing Water by Evaporation, AJP
12, 48 (1944).
- Julius Sumner Miller, Freezing Water by Evaporation - A Remarkable
Situation, AJP 18, 238 (1950).
- John F. Streib, editor, Apparatus Notes: Triple-Point Demonstration,
AJP 32 #11, xxiii (1964).
- Z. V. Harvalik, Vacuum by Freezing, TPT 2, 178-179 (1964).
- R. L. Wild and D. C. McCollum, Dramatic Demonstration of Change of
Phase, AJP 35, 540-541 (1967).
- Robert N. Stoller, Apparatus for Teaching Physics:
Freezing-by-Boiling Apparatus That Does Not Require Acid, TPT 14, 59-60
(1976).
- I4-33: CRYOPHORUS
- Welch Scientific Company, Instructions for use of Cat. No. 1667
Cryophorus.
- I4-34: HAND WARMER
- Manufacturer's sheet.
- I4-35: LOWERING THE FREEZING POINT OF WATER USING SALT
- None.
- I4-36: REGELATION - ICE UNDER PRESSURE
- G. S. Turpin and A. W. Warrington, On the Viscosity of Ice, The
London, Edinburgh, and Dublin PHILOSOPHICAL MAGAZINE and JOURNAL OF
SCIENCE, Vol XVIII. FIFTH SERIES., July-December 1884, pages 120-123.
- R. W. Wood, Jr., Effects of Pressure on Ice, American Journal of
Science, Third Series, Volume CXLI Nos. 241-246, January to June, 1891,
pages 30-33.
- Regelation, TPT 3, 137 (1965).
- Regelation, TPT 3, 186 (1965).
- Mark W. Zemansky, The Regelation of Ice is a Complicated Phenomenon,
TPT 3, 301-302 (1965).
- Jerry B. Marion and William F. Hornyak, Physics For Science and
Engineering, Part 1, page 657.
- Kenneth S. Mendelson, Letter: Why is ice so slippery?, AJP 53, 393
(1985).
- Michael Edmiston, Letter: Does Skating Melt Ice?, TPT 27, 327 (1989).
- Michael D. Edmiston, Letter: Freezing Points, TPT 28, 260 (1990).
- James D. White, The Role of Surface Melting in Ice Skating, TPT 30, 495-497 (1992).
- S. C. Colbeck, Pressure melting and ice skating, AJP 63, 888-890 (1995).
- I4-51: SUBLIMATION OF DRY ICE - PROJECTION
- Frederick W. Kantor, Sublimation and Erosion of Ice by Dry Thermal Convection Currents in an Ordinary Household Refrigerator, TPT 3, 322 (1965).
- Thomas C. Lamborn and Robert Mentzer, Liquid Carbon Dioxide and Solid Nitrogen, TPT 32, 508-509 (1994).
- I4-52: CARBON DIOXIDE BALLOON ON LIQUID NITROGEN
- None.
- I4-61: BINARY PHASE TRANSITION - CRITICAL OPALESCENCE
- Locke White, Jr., Demonstration Analog of a Critical-State Phenomenon, AJP 34, 68 (1966).
- Instructions for making our aniline/cyclohexane binary fluid.
I5: LAWS OF THERMODYNAMICS
- I5-01: MECHANICAL EQUIVALENT OF HEAT - SHOT BAG
- R. D. Edge, String and Sticky Tape: The Mechanical Equivalent of Heat, TPT 25, 456, (1987).
- F. Neff Weber, Measuring the Mechanical Equivalent of Heat - Mechanically, TPT 30, 507 (1992).
- F. Paul Inscho, Apparatus for Teaching Physics: Mechanical Equivalent of Heat, TPT 30, 372-373 (1992).
- I5-02: TRANSFORMATION OF MECHANICAL ENERGY INTO HEAT
- None.
- I5-03: MECHANICAL EQUIVALENT OF HEAT -JOULE'S METHOD
- Instruction Sheet, 388 00-06 Set of Apparatus for the Measurement of the Mechanical and Electrical Equivalent of Heat, Leybold-Heraeus, Germany.
- I5-11: ADIABATIC PROCESS - AIR PISTON WITH THERMISTOR
- Raul Rechtman, An adiabatic reversible process, AJP 56, 1104-1105 (1988).
- Z. Blaszczak and P. Gauden, Application of a laser beam in demonstration of adiabatic gas decompression, AJP 58, 1112-1113 (1990).
- Michael J. Nolan, Thermodynamic Cycles - One More Time, TPT 33, 573-575 (1995).
- William W. McNairy, Isothermal and Adiabatic Measurements, TPT 34, 178-180 (1996).
- D. W. Lamb and G. M. White, Apparatus to Measure Adiabatic and
Isothermal Process, TPT 34, 290-292 (1996).
- I5-12: ADIABATIC EXPANSION OF AIR - FOG IN
BOTTLE
- J. J. Coop, A Demonstration of Fog Production, AJP 9, 242 (1941).
- I5-13: ADIABATIC EXPANSION OF AIR - GRAPH OF TEMP
- J. A. Van Den Akker, Letter: How to Cool a Book by its Cover, TPT 13,
324 (1975)
- I5-14: LIQUEFICATION OF NITROGEN
- Operating instructions for Matheson Cryogenic Liquefier.
- I5-15: ADIABATIC EXPANSION OF CARBON DIOXIDE
- Arthur M. Vash, Guest Editor, Apparatus Notes: Dry Ice on Demand, AJP
34 #12, xv-xvi (1966).
- J. A. Van Den Akker, Letter: How to Cool a Book by its Cover, TPT 13, 324 (1975).
- I5-21: HEATING AIR BY COMPRESSION
- None.
- I5-22: FIRE SYRINGE
- Nakamura Fire Syringe Cat. No. C-3418 Fire Syringe instructions.
- I5-31: STEAM ENGINE - STATIONARY
- None.
- I5-32: STIRLING ENGINE
- Stirling Cycle Engine, Owner's Manual, Model 1.
- Andy Ross, Stirling Cycle Engines, Published by Solar Engines, Phoenix, 1977.
- I5-33: STEAM ROLLER
- None.
- I5-34: STIRLING ENGINE - VISIBLE
- Instruction Manual from Pasco Scientific.
- The Modern World of Stirling Machines, by Brad Ross, Editor, Stirling Machine World.
- Brent H. Van Arsdell, Stirling Engines on the Internet: http://www.stirlingcycle.com
- I5-41: ENDOTHERMIC REACTION - ENTROPY
- Robert C. Plumb, Teaching the Entropy Concept, Journal of Chemical
Education Volume 41, Number 5, May 1964, pp. 254-256.
- G. W. J. Matthews, Demonstrations of Spontaneous Endothermic
Reactions, Journal of Chemical Education Volume 43, Number 9, September
1966, p. 476.
- I5-51: SPECIFIC HEAT - ALUMINUM AND COPPER
- Supplementary Information, Thermophysical Properties of Aluminum and Copper; Demo Instructions.
- Lecture Demonstrations List of Properties for Various Metals.
- I5-52: ELECTRIC CALORIMETER
- None.
I6: KINETIC THEORY AND STATISTICAL MECHANICS
- I6-01: GAS PRESSURE - MODEL
- A. H. Benade, Quantitative Kinetic Theory Model, AJP 23, 281-285 (1955).
- I6-02: NITROGEN DIAMETER AND MEAN FREE PATH
- Edward V. Lee, Determination of Boltzmann's Constant, TPT 13, 305-306 (1975).
- I6-03: EQUIPARTITION OF ENERGY
- None.
- I6-11: BROWNIAN MOTION WITH TV
- N. David Mermin, Two Models of Brownian Motion, AJP 29, 510-517
(1961).
- Brownian Movement Corridor Demonstration, AJP 32 #7, vi (1964).
- J. A. Earl, Brownian Motion Determination of Avogadro's Number, AJP
33, xxi (1965).
- Noel A. Clark and Joseph H. Lunacek, A Study of Brownian Motion Using Light Scattering, AJP 37, 853-855 (1969).
- Noel A. Clark, Joseph H. Lunacek, and George B. Benedak, A Study of Brownian Motion Using Light Scattering, AJP 38, 575- ? (1970).
- C. D. Anger and J. R. Prescott, A Monte Carlo Simulation of Brownian Motion in the Freshman Laboratory, AJP 38, 716-719 (1970).
- George Barnes, A Brownian Motion Demonstration Using Television, AJP 41, 278-280 (1973).
- Sister Martha Ryder, HOW TO SHOW IT: Brownian Motion, TPT 12, 574 (1974).
- Robert Stoller, Viewing Brownian motio with laser light, AJP 44, 188
(1976).
- Haym Kruglak, Brownian movement: An improved TV demonstration, AJP
55, 955-956 (1987).
- Bill Reid, Apparatus for Teaching Physics: Viewer for Brownian Motion, TPT 29, 52-53 (1991).
- Meiners, Physics Demonstation Experiments, Section 27-8.1.
- I6-12: BROWNIAN MOTION - SMALL VERSION
- Wallace Hilton, Brownian Motion, TPT 10, 534 (1972).
- I6-13: AIR TABLE - MODEL OF BROWNIAN MOTION
- None.
- I6-21: GAS DIFFUSION - MODEL
- Roger A. Key and B. D. DePaola, Apparatus for Teaching Physics: A Simple Apparatus for Demonstration of Gaseous Diffusion, TPT 29, 522-523 (1991).
- I6-22: IODINE DIFFUSION TUBES
- Eldred F. Tubbs, Demonstration of Gaseous Diffusion, AJP 35,
1026-1029 (1967).
- Welch Scientific Co. Instructions for use of Cat. No. 4425 Iodine
Diffusion Tubes.
- I6-23: DIFFUSION - FOOD COLOR IN WATER
- None.
- I6-24: DIFFUSION VELOCITY
- W. H. Furry, On the Elementary Explanation of Diffusion Phenomena in
Gas, AJP 16, 63-78 (1948).
- Eldred F. Tubbs, Demonstration of Gaseous Diffusion, AJP 35, 1026-1029 (1967).
- E. A. Mason, Equal Pressure Diffusion and Graham's Law, AJP 35, 434-435 (1967).
- R. L. Wild, Lecture Demonstration and Laboratory Apparatus Showing F-Center Diffusion, AJP 35, 1023-1026 (1967).
- Arnold J. Abraham and Charlse P. Bean, A simple method for measurement of the diffusion of vapors, AJP 57, 325-330 (1989).
- Erna M. J. Herry and Hermann Herry, Principles of Physics Applied to Traffic Movements and Road Conditions, AJP 13, 1-14 (1945).
- I6-25: DIFFUSION - DISTRIBUTION OF PING-PONG BALLS
- None.
- I6-31: MOLECULAR MOTION DEMO - BROWNIAN MOTION
- M. Husman, C. Schwieters, M. Littman, and H. Rabitz, Molecular-dynamics simulator for optimal control of molecular motion, AJP 59, 1012-1017 (1991).
- I6-32: MOLECULAR MOTION DEMO - RANDOM MOTION IN GASES
- None.
- I6-33: MOLECULAR MOTION DEMO - GAS PRESSURE
- None.
- I6-34: MOLECULAR MOTION DEMO - TEMPERATURE OF A GAS
- None.
- I6-35: MOLECULAR MOTION DEMO - DIFFUSION
- None.
- I6-36: MOLECULAR MOTION DEMO - AVOGADRO'S HYPOTHESIS
- None.
- I6-37: MOLECULAR MOTION DEMO - VAN DER WAALS FORCES
- None.
- I6-38: MOLECULAR MOTION DEMO - BOYLE'S LAW
- None.
- I6-39: MOLECULAR MOTION DEMO - CHARLES' LAW
- None.
- I6-40: MOLECULAR MOTION DEMO - SOLIDS
- None.
- I6-41: MOLECULAR MOTION DEMO - LIQUIDS
- None.
- I6-51: ENTROPY - SORTING MARBLES
- None.
- I6-52: ENTROPY - FOUR BALLS IN GAS DIFFUSION MODEL
- None.
- I6-61: MAXWELL DEMON
- L. Darling and E. O. Hulburt, On Maxwell's Demon, AJP 23, 470 (1955).
- James H. Larson, Apparatus for Teaching Physics: Maxwell's Demon
(Apparatus), TPT 13, 503-504 (1975).
- Welch Scientific Company Instructions for use of Cat. No. 1710C
Maxwell's Demon Demonstrator.
- Harvey S. Leff and Andrew F. Rex, Resource Letter MD-1: Maxwell's
demon, AJP 58, 201-209 (1990).
I7: SOLID STATE AND LOW TEMPERATURE PHYSICS
- I7-01: CRYSTAL MODELS - SET OF 3
- M. Drechsler, Elastic Crystal Models, AJP 39, 545-555 (1971).
- I7-02: CRYSTAL MODELS - BRAVAIS SET OF 14
- None.
- I7-03: CRYSTAL MODELS - BRAVAIS SUPPL SET OF 18
- None.
- I7-04: CRYSTAL MODELS - CALCITE
- None.
- I7-05: CRYSTAL MODELS - LARGE
- None.
- I7-06: CRYSTAL MODELS - LARGE UNIVERSAL
- A. L. Loeb and G. W. Pearsall, Moduledra Crystal Models. A Teaching and Research Aid in Solid-State Physics, AJP 31, 190-196 (1963).
- I7-07: CLOSE-PACKED CRYSTALLITE
- A. L. Loeb and G. W. Pearsall, Moduledra Crystal Models. A Teaching
an Research Aid in Solid-State Physics, AJP 31, 190-196 (1963).
- I7-11: FERMI SURFACE OF ALUMINUM
- R. M. Warner, Jr., Fermi Level Demonstration, AJP 29, 529-531 (1961).
- I7-21: SUPERCONDUCTIVITY - MAGNET LEVITATION
- Arthur Fisher, SUPERCONDUCTIVITY, Popular Science, April 1988, pp. 54-58.
- E. Bochenek, R. Fischer, and H. Voigt, Conception and Operation of a Meissner-Ochsenfeld Effect Motor with High Tc Superconductors, Journal of Less-Common Metals, 151, 473-480 (1989).
- P. J. Ouseph, Meissner oscillator, AJP 57, 955-956 (1989).
- Robert J. Birgeneau, The Richtmyer Memorial Lecture (January 1989): Novel magnetic phenomena and high-temperature superconductivity in lamellar copper oxides, AJP 58, 28-40 (1990).
- Michael J. Pechan and Jonathan A. Horvath, Quasiequilibrium determination of high-Tc superconductor transition temperatures, AJP 58, 642-650 (1990).
- E. H. Brandt, Rigid levitation and suspension of high-temperature superconductors by magnets, AJP 58, 43-49 (1990).
- P. J. Ouseph, Levitation of a Magnet over a Superconductor, TPT 28, 205-209 (1990).
- Judith Bransky, Superconductivity - A New Demonstration, TPT 28, 392-394 (1990).
- Masayoshi Wake, Floating Magnet Demonstration, TPT 28, 395-397 (1990).
- Raymond E. Benenson, Demonstration of Magnetic Images, TPT 29, 54-55 (1991).
- E. Guarner and A. M. Sanchez, The Superconducting Bird: A Didactical Toy, TPT 30, 176-179 (1992).
- Frederick H. Juergens, Arthur B. Ellis, Gunther H. Dieckmann, and Ronald I. Perkins, Levitating A Magnet Using A Superconductive Material: An Overhead-Projector Demonstration, reprinted from the Journal of Chemical Education, October 1987, pp. 851-853
.
- Institute for Chemical Education, Project 1-2-3 Levitation Kit, University of Wisconsin - Madison (1987).
- Colorado Superconductor, Lab Manual for Superconductor Demonstrations (1987).
- I7-31: FILLED CONDUCTION BANDS
- None.