REFERENCES SECTION J

J1: ELECTROSTATIC CHARGE AND FORCE

J1-01: TRIBOELECTRICITY - CHARGING BY FRICTION

Duane Roller and Duane H. D. Roller, The Prenatal History of Electrical Science, AJP 21, 343-356 (1953).

Robert C. Plumb, Triboelectricity, Journ. Chem. Ed. 48, 524, (1971).

D. S. Ainslie, What are the Essential conditions for Electrification by Rubbing?, AJP 35, 535-537, (1967).

Stanley Anderson, An Experiment to Demonstrate that "Friction" Electricity Depends on Contact Potential, AJP 144, (1936).

Gilbert O. Spencer, Demonstrations in Electrostatics, AJP 26, 269, (1958).

Lecture Demonstrations Note Sheet: Triboelectricity - Charging by Friction.

Catalog Description, The Equipoise Electroscope, CCM School Materials Inc.

Randal Harrington, Getting a charge out of transparent tape, TPT 38, 23-25 (2000).

J1-02: TRIBOELECTRICITY - WATER JET IN AIR

None.

J1-03: KILOVOLT CARPET

None.

J1-04: KILOVOLT INSTRUCTOR

None.

J1-05: CHARGED BALLOONS

None.

J1-06: FUN-FLY-STICK

None.

J1-11: ELECTROPHORUS

Instructions for Use of Cat. No. 1954A Electrophorus, Sargent-Welch Scientific Co., Skokie, IL.

Van Nostrand's Scientific Encyclopedia, 7th Edition, 1047-1048.

Lecture Demonstration Notes - Electrophorus.

William Layton, A Different Light on an Old Electrostatics Demonstration, TPT 29, 50-51 (1991).

J1-12: INDUCTION - ELECTROSCOPE

"Little Stinkers," Charging of an Electroscope, TPT 3, 185-186, (1965).

"Questions Students Ask," How Can an Electroscope Be Charged This Way?, TPT 17, 56, (1979).

M. Jonoska, A. Tuntev, and O. Zajkov, Hands-on experiments with a voltage tester, TPT 41, 14-15 (2003).

J1-13: ELECTROSTATIC INDUCTION

Oleg Jefimenko, How can An Electroscope be Charged This Way?, TPT 56, (1979).

Charging of an Electroscope, Little Stinkers, Phys. Teach. 3, 185-186, (1965).

Lecture Demonstrations Note Sheet: Directions for Electroscope Induction.

J1-21: ELECTROSTATIC ATTRAC AND REPULS - CHARGED CYLINDERS

Walter Roy Mellen, Inexpensive Electrostatics Halos, TPT 28, 612-613 (1990).

J1-22: ELECTROSTATIC ATTRAC AND REPULS - WIMSHURST MACHINE

None.

J1-23: ELECTRIC CHIMES

R. V. Krotkov, M. T. Tuominen, and M. L. Breuer, "Franklin's Bells" and charge transport as an undergraduate lab, AJP 69, 50-55 (2001).

J1-24: ELECTROSTATIC HAIR RAISING

Scott C. Dudley, Bret D. Heerema, and Ryan K. Haaland, The human discharge chain, APJ 65, 553-555 (1997).

J1-25: VAN DE GRAAFF - TRAINED RABBIT

None.

J1-26: VAN DE GRAAFF - REPULSION OF PIE PANS

None.

J1-27: QUALITATIVE EXISTENCE OF ELECTROSTATIC FORCES

None.

J1-28: COULOMBS LAW - PROJECTION

John B. Johnston, Coulomb's Law on the Overhead Projector, TPT 17, 60-61 (1979).

Richard H. Price and Richard P. Phillips, The Force Between Two Charged Wires, AJP 58, 534-539, (1990).

Peter Heering, On Coulomb's inverse square law, AJP 60, 988-994 (1992).

Xishun Xie and Xiaoqin Huang, Elegant calculations of the Coulomb force between two hemispherical surfaces with uniform charge densities, AJP 62, 952-953 (1994).

H. H. Hassan, Comment on "Elegant calculations of the Coulomb force between two hemispherical surfaces with uniform charge densities," by Xishun Xie and Xiaoqin Huang [AJP 62, 952-953 (1994)] AJP 63, 856 (1995).

J1-29: VAN DE GRAAFF - PENDULUM

None.

J1-41: CONDUCTORS AND INSULATORS

None.

J2: ELECTROSTATIC DEVICES AND APPLICATIONS

J2-01:WIMSHURST MACHINE

Hobart Mason, A text-book on Static Electricitiy, McGraw Publishing Co., 14-23, 120-135, New York, (1904).

Markus Zahn, Richard L. Goslin, and Larry F. Wicks, Self-Excited, Alternating, High-Voltage Generation Using a Modified Electrostatic Influence Machine, AJP 42, 289-294 (1974).

G. B. Putz, The Wimshurst Machine, Popular Electronics, December 1990, pp. 29-32.

Instructions: Wimshurst Static Machine, Stansi Scientific.

Catalog Description, 78780 Static Machine, Wimshurst, Cenco Scientific Co.

Central Scientific Company catalog information sheet.

James Wimshurst, Alternating and Experimental Influence-Machine, Proceedings of the Physical Society of London, vol. 11 no. 1 pp. 125-130 (June 1890).

James Wimshurst, A New Form of Influence-Machine, Proceedings of the Physical Society of London, vol. 12 no. 1 pp. 403-406 (October 1892).

J2-02: KELVIN ELECTROSTATIC GENERATOR

Hobart Mason, A text-book on Static Electricity, McGraw Publishing Co., New York, 134-137, (1904), 52. The Dropping Generator, pp. 135-137.

C. Z. Van Doorn, Demonstration of Electrostatic Generator Principles, AJP 37, 225, (1969).

Harry F. Weiners, Physics Demonstration Experiments, Electrostatics, Library of Congress No. 69-14674, Ronald Press Co., New York, 847-850, (1970).

Menno Fast, Electrostatic Lobby Display, TPT 10, 100-101, (1972).

Markus Zahn, Self-Excited ac High Voltage Generation Using Water Droplets, AJP 41, 196-202 (1973).

Lester Evans, J. Truman Stevens, Kelvin Water Dropper Revisited, TPT 15, 548-549, (1977).

William Blunk, Doing Physics: Kelvin electrostatic generator workshop, TPT 20, 412-413 (1982).

Michael Sady, The Kelvin Water Dropper: An Elementary Experience, Phys Teach 22, 516, (1984).

Joe Pizzo, "Ting-A-Ling" Machine, TPT 26, 304-305, (1988).

A. D. Moore, Electrostatics, Doubleday & Co., New York, 174-179, 204-211.

Catalog Description of Apparatus, Cat. No. 78680 Electrostatic Generator, Cenco Scientific Co.

Instructions, Catalog No. 78680 Electrostatic Generator, Cenco Scientific Co.

Meiners, Physics Demonstation Experiment, Section 29-1.23, pp. 247-250.

Paul Chagnon, Animated Displays VI: Electrostatic Motors and Water Dropper, TPT 34, 491-494 (1996).

Se-yuen Mak, The Kelvin Water-Drop Electrostatic Generator-An Improved Design, TPT 35, 549-551 (1997).

Gorazd Planinsic and Tomaz Prosen, Conducting rod on the axis of a charged ring: The Kelvin water drop generator, AJP 68, 1084-1089 (2000).

J2-03: VAN DE GRAAFF GENERATOR WITH GROUND SPHERE

Ronald Blum, Notes on "Image Methods in Electrostatics" (A Computer-Animated Film), AJP 36, 412-417 (1968).

R. J. Van de Graaff, K. T. Compton, and L. C. Van Atta, The Electrostatic Production of High Voltage for Nuclear Investigations, Physical Review 43, 149-157 (1933).

A. W. Simon, On the Theory of the Van de Graaff Electrostatic Generator, AJP 22, 318-326 (1952).

R. G. Herb, Van de Graaff Generators, Handbuch der Physik 44, 63-104 (1959).

K. S. Subudhi and P. Tiwari, Comparison of Simon's and Van de Graaff's Theories of the Electrostatic Generator, AJP 30, 333-335 (1962).

K. Asano and A. W. Bright, On the theory of charge collection in electrostatic generators, J. Phys. D: Appl. Phys., Vol. 5, 1972, pp. 1185-1198.

A. W. Simon, Theory of the frictional Van de Graaff electrostatic generator, AJP 43, 1108-1110 (1975).

Richard E. Berg, Van de Graaff Generators: Theory, Maintenance, an Belt Fabrication, TPT 28, 281-285 (1990).

J2-11: FRANKLIN'S WHEEL

Thomas B. Greenslade Jr., Electrical Inclined Plane, AJP 71, 606 (2003).

J2-12: FRANKLIN'S WHEEL - AC

Lecture Demonstrations Explanation of Franklin's Wheel - AC.

Lecture Demonstrations Sketch of Apparatus.

J2-13: PLASMA MACHINE - EYE OF THE STORM

Owner's Manual, Eye of the Storm, Rabbit Systems Inc.

Nicholas R. Guilbert, Deconstructing a plasma globe, TPT 37, 11-13 (1999).

J2-14: LIGHTNING ROD SIMULATOR

Price and Crowley, The Lightning-Rod Fallacy, AJP 53, 843-848, (1991).

I. M. Benn and S. T. Shanahan, Of lightning rods, charged conductors, curvature, and things, AJP 59, 658-660 (1991).

E. R. Doubek, Living with Lightning, Popular Electronics, 32-34, 96, (Oct. 1990).

Richard Stone, Electical Storms: Violent and Creative, The Washington Post, A3, (July 30, 1990).

M. A. Baker and J. G. Dash, Charge Transfer in Thunderstorms and Surface Melting of Ice, Journal of Crystal Growth, 97, 770-776, (1989).

Richard E. Orville, The Lightening Discharge, TPT 14, 7-13, (1976).

Walter Thumm, Questions Some Student Ask, TPT 12, 369-370, (1974).

Philip O. Johnson, Ball Lightening and Self-Containing Electromagnet Fields, AJP 33, 119-123, (1965).

Theodore Bernstein, Lightning Protection for Buildings, Equipment, and Personnel, from "Electrical Hazards and Accidents - Their Cause and Prevention," E. K. Greenwald, editor, pp. 135-155, Van Nostrand Reinhold, New York.

Peter E. Viemeister, The Lightning Book, QC966.V5 1972, MIT Press (1961, 1972).

J2-15: ELECTROSTATIC SMOKE PRECIPITATOR

Dale Reynard, Using a Model Electrostatic Precipitator, Wilmington Friends School, Wilmington, DE.

Kara Jermacans and Kenneth Laws, Coalescence of raindrops in an electrostatic field, TPT 37, 208-211 (1999).

J2-16: ELECTRODELESS GAS DISCHARGE

None.

J2-17: ELECTRIC WIND

Gordon R. Gore, The Flame and the Van de Graaff, TPT 33, 44 (1995).

Zygmunt Przeniczny, A Variation of Electric Wind Experiment, TPT 10, 338, (1972).

Myron Robinson, A History of the Electric Wind, AJP 30, 366-372, (1962).

Hobart Mason, A text-book on Static Electricity, McGraw Publishing Co., New York, 23-27, (1904).

J2-31: JACOB'S LADDER

Supplemental Information: Jacob's Ladder or the Horn Gap.

J2-32: JACOB'S LADDER - PORTABLE

Lecture Demonstrations Records Sheet.

J2-33: TESLA COIL - PORTABLE

Donald G. Bruns, A solid-state low-voltage Tesla coil demonstrator, AJP 60, 797-803 (1992).

J2-51: ELECTROSTATIC MOTOR

T. Walley Williams, III, Apparatus Drawings Project Report Number 33: Simple Apparatus for Three Lecture Demonstrations, AJP 31, 42-47 (1963).

Oleg Jefimenko, Operation of Electric Motors from the Atmospheric Electric Field, AJP 39, 776-778 (1971).

Oleg Jefimenko and David K. Walker, Electrostatic Motors, TPT 9, 121-129 (1971).

D. H. Martin and R. L. Longbrake, An Electrostatic Oscillator Experiment, AJP 40, 395-398 (1972).

J2-61: FILM CHARGES - FILM REWINDER

None.

J3: ELECTRIC FIELDS AND POTENTIAL

J3-01: EXISTENCE OF ELECTRIC FIELDS

R. T. Cox, Electric Fish, AJP 11, 13-22 (1943).

Marvin L. DeJong, Graphing Electric Potential, TPT 31, 270-272 (1993).

S. Rainson, G. Transtromer, and L. Viennot, Students' understanding of superposition of electric fields, AJP 62, 1026-1032 (1994).

J3-02: ELECTRIC FIELD OF RING OF CHARGE - MODEL

None.

J3-03: ELECTRIC FIELD LINES

Oleg Jefimenko, Demonstration of Electric Fields of Current-Carrying Conductors, AJP 30, 19-21 (1962).

Tomoyoshi Kittaka, Lines of Force of an Electric Field By Electromigratio of Ions, TPT 8, 143-144, (1970).

F. S. Chute and F. E. Vermeulen, A Visual Demonstration of Two-Dimensional Electrostatic Fields, AJP 42, 1075-1077 (1974).

Alan Wolf, Stephen J. Van Hook, and Eric R. Weeks, Electric field line diagrams don't work, AJP 64, 714-724 (1996).

Instructions for B-1254 Electostatic Field Experiment Apparatus, Model EF-5N, Arbor Scientific, Ann Harbor, MI.

J3-04: ELECTRIC FIELD LINES - SOAP BUBBLES

Andrew A. Ruether, Smart Bubbles, TPT 33, 279 (1995).

J3-05: VAN DE GRAAFF - INDUCTION WITH SPHERES AND NEON BULBS

Xiang Yong Chen and Xing Wang, Detecting the polarity of an electric charge, TPT 37, 344 (1999).

J3-06: ELLIPSOIDAL CONDUCTOR

W. L. Schaich and S. Mahmud, On the distributuion of charge over the surface of a conductor, AJP 59, 656-658 (1991).

Richard H. Price and Ronald J. Crowley, The Lightning-rod Fallacy, AJP 53, 843-848, (1991).

Weidner and Sells, Elementary Classical Physics, 28-7 Electric Potential and Conductors, 692-695.

Ford, Classical & Modern Physics, 705-706.

Serway and Faughn, College Physics, 16.7 Conductors in Electrostatic Equilibruim, 385-386.

Richard M. Sutton, Demonstrtion Experiments in Physics, E-29 Surface Distribution of Charge, 264.

Instructions for the Use of No. 2017 Ellipsoidal Conductor, Welch Scientific.

David J. Griffiths and Ye Li, Charge density on a conducting needle, AJP 64, 706-714 (1996).

J3-07: VAN DE GRAAFF - DISCHARGE TO VARIOUS RADII

None.

J3-08: VAN DE GRAAFFS - INTERACTING FIELDS

None.

J3-11: EQUIPOTENTIALS/LINES OF FORCE - ONE CHARGE

Salvador Gil, Mart?n Eduardo Saleta, and Dina Tobia, Experimental study of the Neumann and Dirichlet boundary conditions in two-dimensional electrostatic problems, AJP 70, 1208-1213 (2002).

J3-12: EQUIPOTENTIALS/LINES OF FORCE - TWO POSITIVE CHARGES

None.

J3-13: POTENTIAL SURFACE MODEL WITH E FIELD VECTORS

None.

J3-14: FLUX MODEL - ELECTROSTATICS

Lecture Demonstrations Diagram and Data Sheets.

J3-21: FARADAY CAGE

Zvi Geller and Esther Bagno, Does Electrostatic Shielding Work Both Ways?, TPT 32, 20-22 (1994).

Boon Leong Lan, Why do fields cancel inside a long cylindrical shell?, TPT 39, 404-405 (2001).

Bekir Karaoglu, The vanishing of magnetic flux over a closed surface, AJP 70. 1214-1215 (2002).

Sung Hyun Yoon, Shielding by perfect conductors: An alternative approach, AJP 71, 930-937 (2003).

J3-22: FARADAY CAGE - ELECTROSCOPE

None.

J3-23: FARADAY CAGE - RADIOWAVES

Zhu E-qing, Electromagnetic Shielding, TPT 27, 686 (1989).

J3-24: HOLLOW CONDUCTING SPHERE

Richard M. Sutton, Demonstration Experiments in Physics, E-28 Distribution of Charge on Conductors, 263.

Instruction for Use of No. 2025 Hollow Conducting Sphere, Welch Scientific Co., Skokie, IL.

J4: CAPACITANCE AND POLARIZATION

J4-01: PARALLEL PLATE CAPACITOR

Herbert H. Gottlieb, Variable Capacitor, TPT 5, 86, (1967).

F. N. Yan and H. K. Wong, Force between the plates of a parallel-plate capacitor, AJP 61, 1153 (1993).

G. W. Parker, Electric field outside a parallel plate capacitor, AJP 70, 502-507 (2002).

J4-02: PARALLEL PLATE CAPACITOR - SYMMETRIC

None.

J4-03: PARALLEL PLATE CAPACITOR - SERIES CAPACITORS

A. P. French, Letter: Another in Our Series on Capacitors, TPT 32, 262 (1994).

J4-04: PARALLEL PLATE CAPACITOR - IONIZATION OF AIR

None.

J4-11: POLAR AND NONPOLAR LIQUIDS

M. H. Davis, Electrostatic Field and Force on a Dielectric Sphere near a Conducting Plane - A Note on the Application of Electrostatic Theory to Water Droplets, AJP 37, 26-29 (1969).

C. H. Worner, On the teaching of the electric dipole, TPT 39, 462-463 (2001).

J4-12: ELECTROSTATIC FORCE - MOVING LUMBER

G. T. Carlson and B. L. Illman, Series capacitors and the inverse sum rule, AJP 70, 1122-1128 (2002).

J4-13: MATCHSTICK ON NICKLE UNDER GLASS

None.

J4-21: COLOR FILTER MODEL OF CHARGED DIELECTRIC

None.

J4-22: PARALLEL PLATE CAPACITOR WITH DIELECTRIC

R. R. Benenson, Direct Observation of the Force on a Dielectric, AJP 59, 763-764, (1991).

John J. Meyer and Anthony F. Behof, Experiment on the motion of a dielectric in a parallel-plate capacitor, AJP 62, 931-934 (1994).

M. Dawber, I. Farman, and J.F. Scott, Apparatus and Demonstration Notes: A classroom experiment to demonstrate ferroelectric hysteresis, AJP 71, 819-822 (2003).

J4-23: POLARIZATION OF DEILECTRIC - DISSECTIBLE LEYDEN JAR

Thomas B. Greenslade, Jr. Discovery of the Leiden Jar: Nineteenth Century Textbook Illustrations - LVI, TPT 32, 536-537 (1994).

G. Bradley Huff, Dissectible Leyden Jar, TPT 24, 292, (1986).

Thomas B. Greenslade, Jr., The Dissectible Condenser, TPT 16, 557-558, (1978).

B. Gross, On the Experiment of the Dissectible Condenser, AJP 12, 324-329, (1944).

John Zeleny, Observations and Experiments on Condensers with Removable Coats, AJP 12, 329-339 (1944).

J4-24: FORCE ON DIELECTRIC IN ELECTRIC FIELD

Harry F. Meiners (ed.), Physics Demonstration Experiments, Volume II, Section 29-4.14, page 875.

J4-31: ENERGY STORED IN A CAPACITOR

F. Heinrich, Entropy change when charging a capacitor: A demonstration experiment, AJP 54, 742-744 (1986).

I. Fundaun, C. Reese, and H. H. Soonpaa, Charging a capacitor, AJP 60, 1047-1048 (1992).

F. Herrmann, The unexpected path of the energy in a moving capacitor, AJP 61, 119-121 (1993).

J4-32: DISCHARGE OF CAPACITOR WITH BANG

William Beaty, CAPACITOR DISCHARGE EXPERIMENTS

J4-41: CAPACITORS

H. Richard Crane, How Things Work: New Watches and New Capacitors, TPT 34, 162-163 (1996).

J4-42: CAPACITORS IN SERIES AND PARALLEL

Helene F. Perry, Randall S. Jones, and Gregory N. Derry, Capacitors in Parallel and Series, TPT 29, 348-349 (1991).

A. P. French, Are the Textbook Writers Wrong about Capacitors?, TPT 31, 156-159 (1993).

B. L. Illman and G. T. Carlson, Equal Plate Charges on Series Capacitors?, TPT 32, 77-80 (1994).

K. Mita and M. Boufaida, Erratum: "Ideal capacitor circuits and energy conservation" [Am. J. Phys. 67 (8), 737-739 (1999)], AJP 68, 578 (2000).

A. Gangophadhyaya and J. V. Mallow, Comment on "Ideal capacitor circuis and energy conservation, by K. Mita and M. Boufaida [Am. J. Phys. 67 (8), 737-739 (1999)], AJP 68, 670-672 (2000).

Timothy B. Boykin, Dennis Hite, and Nagendra Singh, The two-capacitor problem with radiation, AJP 70, 415-420 (2002).

J4-43: CAPACITORS IN SERIES AND PARALLEL WITH PROJECTION METER

None.

J4-51: THEREMIN

Assembly Instructions for No. 142 Theremin, Southwest Technical Products Corp.

CD: "The Art of the Theremin, Clara Rockmore, with Nadia Reisenberg, piano," 1987, Delos International Inc., http://www.delosmusic.com (available as of January 2011).

J5: MAGNETOSTATICS

J5-01: MAGNETIC FIELD OF A BAR MAGNET

Gary P. Johnson, Magnetic Field Visualization on the Overhead Projector, Physics Teacher 28, 244, (1990).

J5-02: MAGNETIC FIELD - EME SET - BAR MAGNET

E.M.E. Electromagnetism Series, Teacher's Guide, Unit 1: Magnetic Field.

J5-03: MAGNETIC FIELD OF A BAR MAGNET - 3D VERSION

Instructions, Magnetic Field Observation Box, Nakamura Scientific Co., LTD.

Richard Cannon, Three-Dimensional Magnetic Field in a Bottle, TPT 29, 311 (1991).

J5-04: MAGNETS

Gail S. Welsh, Magnetic therapy in physics?, TPT 38, 181-182 (2000).

Martin Connors, Measurement and analysis of the field of disk magnets, TPT 40, 308-311 (2002).

W.C.K. Poon, Two magnets and a ball bearing: A simple demonstration of the method of images, AJP 71, 943-947 (2003).

J5-05: MAGNET MODEL - FIELD LINES

Directions for Use: 560 61 Cubical Model of a Magnet and 560 62 Hexagonal Model of a Magnet, Leybold-Heraeus.

John W. Belcher and Stanislaw Olbert, Field line motion in classical electromagnetism, AJP 71, 220-228 (2003).

J5-06: MAGNET - BROKEN BUT NO MONOPOLE

None.

J5-07: MAGNETIZED WIRE FIELD LINE INDICATOR

None.

J5-11: MAGNETIC FIELD - EME SET - STRAIGHT WIRE

E.M.E. Electromagnetism Series, Teacher's Guide, Unit 2: Magnetic Effect of Electric Current.

Instruction Sheet, Cat. No. 560-60, 61, 62, 63, Model of a Magnet, Leybold-Heraeus.

E. W. Dearden, Demonstration of Amperian currents, AJP 63, 821-822 (1995).

George Ruppeiner, Michael Grossman, and Ali Tafti, Test of the Biot-Savart law to distances of 15 m, AJP 64, 698-705 (1996).

Jos? A. Miranda, Magnetic field calculation for arbitrarily shaped planar wires, AJP 68, 254-258 (2000).

Earl Zwicker: Doing Physics column: The Right-Hand Rule Made Visible?, TPT 27 (9), 684-686 (1989).

J5-12: MAGNETIC FIELD - EME SET - TWO - TURN HELIX

E.M.E. Electromagnetism Series, Teacher's Guide, Unit 3: Helix Magnetic Field.

Elizabeth Cavicchi, Experiences with the magnetism of conducting loops: Historical instruments, experimental replications, and productive confusions, AJP 71, 156-167 (2003).

J5-13: MAGNETIC FIELD - EME SET - SOLENOIDS

E.M.E. Electromagnetism Series, Teacher's Guide, Unit 4: Solenoids.

A. G. Klein, On demonstrations of Ampere's law, AJP 61, 1045 (1993).

Jason Farley and Richard H. Price, Field just outside a long solenoid, AJP 69, 751-754 (2001).

J5-14: MAGNETIC FIELD AROUND SINGLE AND PARALLEL WIRES

Dwight E. Neuenschwander and Brian Turner, Generalization of the Biot-Savart law to Maxwell's equations using special relativity, AJP 60, 35-38 (1992).

J5-15: MAGNETIC FIELD OF RING OF CURRENT -MODEL

Joseph Priest, Verifying Ampere's law, AJP 58, 600-601 (1990).

J5-16: MAGNETIC FIELD OF WIRE, LOOP, SOLENOID

H. E. Ellithorn and D. J. Angelakos, A Series of Magnetic Experiments, AJP 13, 390-396 (1945).

J5-17: HELMHOLTZ COILS AND HALL PROBE

Richard C. Calhoun, An elementary derivation of the midplane magnetic field inside a pair of Helmholtz coils, AJP 64, 1399-1404 (1996).

J5-18: OERSTED EXPERIMENT

None.

J5-19: MAGNET FIELDS OF PARALLEL AND ANTIPARALLEL CURRENTS

Peter Heller, Analog demonstrations of Ampere's law and magnetic flux, AJP 60, 17-25 (1992).

Peter Heller, Erratum: "Analog demonstrations of Ampere's law and magnetic flux" [AJP 60, 17-25 (1992)], AJP 60, 274 (1992)..

J5-20: OERSTED EXPERIMENT - LARGE COIL AND COMPASS

None.

J5-30: OMEGA LEVITRON

Arbor Scientific

J5-31: QUADRUPOLE MAGNET FIELD

Richard L. Taylor, Focusing Electron Beams at SLAC, TPT 31, 18-26 (1993).

J5-32: MAGNETIC LEVITATION - PERMANENT MAGNET AND ELECTROMAGNET

None.

J5-33: TORQUE ON A BAR MAGNET

None.

J5-34: DECLINATION AND INCLINATION NEEDLE

None.

J5-35: MAGNETS INTERACTING ON PIVOTS

Trevor Mitchell and P. B. Siegel, A simple setup to observe attractors in phase space, AJP 61, 855-856 (1993).

J5-36: MAGNET SPINNER

H. Richard Crane, How Things Work: Magnetic Levitation (Almost), TPT 30, 540-541 (1992).

David Kagan, Building a Magnetic Levitation Toy, TPT 31, 432-433 (1993).

J5-41: FLUX MODEL - MAGNETOSTATICS

Lecture Demonstrations Instructions Sheet.

J5-51:GAUSSMETER

Booklet, The Hall Effect and Its Applications, F.W. Bell Inc.

Catalog Description, Gaussmeter Probes, F.W. Bell.

J6: ELECTROMAGNETS

J6-01: ELECTROGMAGNET WITH BANG

None.

J6-02: ELECTROGMAGNET WITH JUNK

None.

J6-03: ELECTROGMAGNET WITH JUNK - WITHOUT CORE

None.

J6-04: LOW POWER - HIGH FORCE ELECTROMAGNET

None.

J6-21: MAGNETIC FIELD IN GAP OF ELECTROMAGNET

None.

J6-31: FORCE ON SOLENOID CORE

Harry Mands, A Simple Demonstration of Induction, EMF..., TPT 17, 112-113, (1979).

J6-32: FORCE ON SOLENOID CORE - SMALL

None.

J6-33: ELECTROGMAGNET GUN

James A. Rabchuk, The Gauss Rifle and Magnetic Energy, TPT 41, 158-161 (2003).

J7: MAGNETIC MATERIALS

J7-01: LODESTONE

Lovley, Stolz, Nord,Jr., Phillips, Anaerobic Production of Magnetite by a Dissimilatory Iron-Reducing Microorganism, Nature Vol. 330, 253-254, (Nov. 19, 1987).

Fossil Bacterial Magnetite in Deep-Sea Sediments from theSouth Atlantic Ocean, Nature Vol. 320, 611-614, (April 17, 1986).

J7-10: DIAMAGNETIC REPULSION OF WATER

None.

J7-11: PARAMAGNETISM AND DIAMAGNETISM

Paul L. Willems, Demonstrating Diamagnetism, TPT 35, 463 (1997).

Charles A. Sawicki, Inexpensive demonstration of the magnetic properties of matter, TPT 36, 553-555 (1998).

Charles A. Sawicki, Small inexpensive diamagnetic levitation apparatus, TPT 39, 556-558 (2001).

Chris Conery, L. F. Goodrich, and T. C. Stauffer, More diamagnetism demonstrations, TPT 41, 74-75 (2003).

Ron Edge, A simple diamagnetic levitation experiment, TPT 41, 122 (2003).

J7-12: CURIE POINT OF IRON

G. J. Van der Maas and W. J. Purvis, "Curie point" Motor, AJP 24, 177-178 (1956).

R. Stuart Mackay, On Curie Point Motors and Oscillators, AJP 27, 185-186 (1959).

Harald C. Jensen, New Demonstration of the Hysteresis Loop in Iron, AJP 25, 384-385 (1957).

P. G. Mattocks, A 0.7-mW magnetic heat engine, AJP 58, 545-548 (1990).

David G. Fisher and William T. Franz, Undergraduate laboratory demonstration of aspects of phase transitions using Curie temperature determination in amorphous ferromagnetic materials, AJP 63, 248-251 (1995).

Handbook of Tables for Applied Engineering Science, Table 2-82. FERROMAGNETIC MATERIALS - CURIE TEMPERATURES, page 310-311.

J7-13: CURIE POINT OF NICKEL

George Barnes, Demonstrating the Curie Point in Nickel, TPT 24, 86-87 (1986).

Chin-Shan Lue, A Direct Method for Viewing Ferromagnetic Phase Transition, TPT 32, 304-305 (1994).

J7-14: CURIE POINT OF DYSPROSIUM

None.

J7-21: HYSTERESIS

Harald C. Jensen, New Demonstration of the Hysteresis Loop in Iron, AJP 25, 384-385 (1957).

John H. Miller III, Novel Experiments in Physics II, 129-136.

E.A. Nesbitt, Ferromagnetic Domain, A Basic Approach to the Study of Magnetism, Chapter 4- The Magnetization Curve, 10-18, 50-58.

Meiners, Physics Demonstration Experiments Vol III, Electricity and Magnetism, 972.

Sutton, Demo. Experiments in Physics, E-101 Hysteresis of Iron Shown by Cathode-Ray Oscilloscope, 289.

Pohl, elektrizitatslehre, 166-167

Catalog Description, Hysteresis Coil, Sargent-Welch Co.

Catalog Description, Minor Magnetic Induction and Hysteresis Apparatus, Cenco Scientific Co.

Lecture Demonstrations Information Sheet: Calculations with Schematics.

H. Richard Crane, Questions students ask: How does an electron create magnetism?, TPT 18, 478 (1980).

Henry H. Kolm, Questions students ask: Why are so few substances ferromagnetic?, TPT 20, 183-185 (1982).

F. Herrmann, Teaching the magnetic field: Problems to avoid, AJP 59, 447-452 (1991).

Chin-Shan Lue, A Direct Method for Viewing Ferromagnetic Phase Transition, TPT 32, 304-305 (1994).

Deborah Schurr and Tim Usher, Demonstrating Hysteresis in Ferroelectric Materials, TPT 33, 30-31 (1995).

J7-22: MAGNETIC DOMAINS WITH TV

Jeffrey J. Braun, Tel-Atomic Magnetic Bubble Apparatus- An Evaluation, TPT 20, 330-333, (1982).

W. J. Taylor, A. H. Bobeck, G. P. Vella-Coleiro, and A. Rosencwaig, A New Type of Cylindrical Magnetic Domain (Hard Bubble), AIP Conference Proceedings, No. 10, (1972).

Herbert Callen and Richard M. Josephs, Journal of Applied Physics, Vol. 42, No. 5, (April 1971).

Andrew H. Bobeck and H. E. D. Scovil, Magnetic Bubbles, Scientific American 78, 224, (June 1971).

A. A. Thiele, Theory of the Static Stability of Cylindrical Domains in Uniaxial Platelets, Journal of Applied Physics, Vol. 44, No. 3, 1139-1145, (March 1, 1970).

A. H. Bobeck, Properties and Device Applications of Magnetic Domains in Orthoferrites, The Bell System Technical Journal, Vol XLVI No. 8, (Oct. 1967).

Myron A. Jeppesen, and William A. Sloan, Optical Observations of Ferrimagnetic Domains, AJP 29, 789, (1961).

J. F. Dillon, Jr. and H. E. Earl, Demonstration of Magnetic Domains, AJP 27, 201-208, (1959).

R. M. Bozorth, Behavior of Magnetic Materials, AJP 21, 260-266, (1953).

R. M. Bozorth, The Teaching of Ferromagnetism, AJP 10, 73-78, (1942).

R. M. Bozorth and J. F. Dillinger, A Model of Ferromagnetic Action, AJP 5, 157-160, (1937).

B. K. Tanner, Magneto-optical Experiments on Rare Earth Garnet Films, AJP 48, 59-62, (1980).

J7-23: MAGNETIC DOMAINS - MODEL

Ena S. Bichsel, Brenda Wilson, and Wilhelmus Geerts, Magnetic Domains of Floppy Disks and Phone Cards Using Toner Fluid, TPT 40, 150-153 (2002).

J7-24: BARKHAUSEN EFFECT

G. D. Freier, F.J. Anderson, A Demonstration Handbook for Physics- University of Minnesota Demo Book, E-72, Es-1.

Sutton, Demonstration Experiments in Physics, E-94, 285.

Meiners, Harry F., Physics Demonstration Experiments, 967.

F. W. Warburton, A Model of Magnetization, AJP 4, 213-214, (1936).

H. Richard Crane, Questions students ask: How does an electron create magnetism?, TPT 18, 478 (1980).

Henry H. Kolm, Questions students ask: Why are so few substances ferromagnetic?, TPT 20, 183-184 (1982).

William Lonc, A simple demonstration of the Barkhausen effect, AJP 60, 860 (1992).

J7-31: VISIBLE HARD DRIVE

Ena S. Bichsel, Brenda Wilson, and Wilhelmus J. Geerts, Magnetic domains of floppy disks and phone cards using toner fluid, TPT 40, 150-153 (2002).