REFERENCES
REFERENCES SECTION K
K1: FORCES ON MOVING CHARGES
- K1-01: FORCE BETWEEN CURRENT-CARRYING WIRES
- Bruce Bernero, A Demonstration of Magnetic Force Upon a Current-Carrying Wire, TPT 25, 88, (1987).
- Jack Willis and Donal F. Kirwan, Forces Exerted Between Parallel Conductors, TPT 13, 113-114, (1975).
- H. W. Dosso and R. H. Vidal, Magnetic Field Demonstrations, AJP 31, 59-60, (1963).
- K1-02: FORCE BETWEEN CURRENT-CARRYING WIRES - PROJECTION
- None.
- K1-03: FORCE ON CURRENT IN MAGNETIC FIELD
- None.
- K1-04: FORCE ON CURRENT IN MAGNETIC FIELD - PORTABLE
- None.
- K1-05: FORCE BETWEEN CURRENT-CARRYING COILS
- None.
- K1-06: CURRENT BALANCE
- None.
- K1-11: CATHODE-RAY TUBE - DEFLECTION BY CURRENT
- Operating Instructions, Cathode Ray Tube, Model CR-100-A, Electro-Technic Products.
- K1-12: CATHODE-RAY TUBE - DEFLECTION BY MAGNET
- Operating Instructions, Cathode Ray Tube, Model CR-100-A, Electro-Technic Products.
- K1-13: CATHODE-RAY TUBE - DE LA RIVE MAGNETIC EFFECT
- None.
- K1-14: OSCILLOSCOPE CRT - DEFLECTION BY MAGNET
- J. G. Shepard, Magnetic Experiments with a Cathode Ray Tube, TPT 5, 153-155, (1967).
- Tektronix T0510 Performance Curves, CRT Data, (1965).
- Schematic Diagrams for Oscilloscope Circuits.
- K1-15: OSCILLOSCOPE CRT - DEFLECTION BY ELECTRIC FIELD
- None.
- K1-16: VISIBLE CRT
- None.
- K1-21: TORQUE ON CURRENT LOOP IN MAGNETIC FIELD
- Lev Vaidman, Torque and force on a magnetic dipole, AJP 58, 978-983 (1990).
- V. Hnizdo, Comment on "Torque and force on a magnetic dipole" by Lev Vaidman [AJP 58, 978-983 (1990)], AJP 60, 279-280 (1992).
- K1-22: TORQUE ON 500-TURN COIL IN MAGNETIC FIELD
- None.
- K1-23: TORQUE ON CURRENT LOOP - MODEL
- None.
- K1-31: MAGNETOHYDRODYNAMIC GENERATOR
- J. L. Ryerson, An Interesting Exhibit, AJP 17, 520 (1949).
- Paul C. Sharrah and G. D. Lingelbach, Demonstration Electromagnetic Pump, AJP 23, 301-302 (1955).
- Walter M. Elsasser, Hydromagnetism. I. A Review, AJP 23, 590-609 (1955).
- E. W. LeMaster and L. C. Shepley, A Simple MHD Pump, AJP 38, 389-390 (1970).
- J. P. Rayner, Experiments in Magnetohydrodynamics, AJP 38, 736-740 (1970).
- John J. Wright and Stephen Van der Beken, The Hall Effect in a Flowing Electrolyte, AJP 40, 245-247 (1972).
- Igor Alexeff, Marshall Pace, Leon Hofer, and Karl Lonngren, A Simple MHD Power Generator for the Student Laboratory, AJP 41, 203-206 (1973).
- Arthur Kantrowitz and Richard J. Rosa, MHD Power Generation, TPT 13, 455-464 (1975).
- H. S. T. Driver, Comment on "The Hall effect in a flowing electrolyte [AJP 40, 245-247 (1972)], AJP 46, 1275 (1978).
- Stanislaw Bednarek, Apparatus and Demonstration Notes: Self-powered magnetohydrodynamic motors, AJP 64, 90-92 (1996).
- K1-41: BARLOW'S DISC
- Kenneth E. Jessee, Construction of a Faraday "Dynamo," AJP 41, 120-121 (1973).
- K1-51: HALL EFFECT
- J. P. Eisenstein, The quantum hall effect, AJP 61, 179-183 (1993).
K2: ELECTROMAGNETIC INDUCTION
- K2-01: EARTH INDUCTOR
- Instructions for Use: Cat No. 9317 Professional Degaussing Coil.
- W. V. Houston, The Laws of Electromagnetic Induction, AJP 7, 373-378 (1939).
- Hermann Haemmerle, A New Apparatus for Demonstrating and Induced Electromotive Force, AJP 17, 317 (1949).
- David Harrison, Apparatus Notes: Discovering induction, AJP 49, 603 (1981).
- Jose A. Manzanares, Juan Bisquert, Germa Garcia-Belmonte, and Mercedes Fernandez-Alonso, An experiment on magnetic induction pulses, AJP 62, 702-706 (1994).
- K2-02: INDUCTION IN A SINGLE WIRE
- E. M. E. Electromagnetism Series, Teacher's Guide, Units 5: Electromagnetic Induction.
- K2-03: FARADAY'S EXPERIMENT ON INDUCTION
- None.
- K2-04: FARADAY'S EXPERIMENT - EME SET - 20, 40, 80 TURN COILS
- None.
- K2-05: FARADAY 'S EXPERIMENT - CONCENTRIC COILS
- None.
- K211: SELF INDUCTION
- Thomas B. Brown, Improved Demonstration of Self-Induction, AJP 27, 59 (1959).
- K2-12: SELF INDUCTION - DEMOUNTABLE TRANSFORMER
- None.
- K2-21: RHUMKORFF INDUCTION COIL
- Catalog Description, 2382 Induction Coil, Sargent Welch.
- Schematic Diagram, ID-300 Modified Ruhnhorff Induction Coil, Sargent-Welch Cat. No. 2391A, Elector-Technic Products.
- K2-22: INDUCTION COIL
- None.
- K2-23: ARCING SWITCH
- None.
- K2-24: MUTUAL INDUCTION
- None.
- K2-25: MUTUAL INDUCTION - DEMOUNTABLE TRANSFORMER
- None.
- K2-26: MUTUAL INDUCTION - STANDARD
- None.
- K2-27: MUTUAL INDUCTION - M12=M21 MEASUREMENT
- Frank S. Crawford, Mutual inductance M12=M21: An elementary derivation, AJP 60, 186 (1992).
- K2-28: DEMOUNTABLE TRANSFORMER - 10KV ARC
- None.
- K2-41: LENZ'S LAW - ROLLING RODS
- Louis H. Cadwell, Magnetic Damping: Analysis of an eddy current brake
using an airtrack, AJP 64, 917-923 (1996).
- K2-42: LENZ'S LAW - MAGNET IN ALUMINUM TUBE
- Jhules A. M. Clack and Terrance P. Toepler, Magnetic Induction Experiment, TPT 28, 236-238, (1990).
- Joseph Priest and Bryant Wade, A Lenz Law Experiment, TPT 30, 106-108 (1992).
- Cyrus S. MacLatchy, Philip Backman, and Larry Bogan, A quantitative magnetic braking experiment, AJP 61, 1096-1101 (1993).
- Charles A. Sawicki, Lenz's Law: Feel the Force, TPT 34, 38-39 (1996).
- Instructions, Model MG-8600 Lenz's Law Demonstrator, Pasco Scientific, Hayward, CA.
- K2-43: LENZ'S LAW - PERMANENT MAGNET AND COILS
- Thomas D. Miner, Lenz's Law Demonstration, TPT 6, 427 (1968).
- Don Kangas and Haym Kruglak, Lenz's Law Demonstration, TPT 27, 50 (1989).
- K2-44: EDDY CURRENT PENDULUM
- Francis X. Hart and Kenneth W. Wood, Eddy current distributions: Their calculation with a spreadsheet and their measurement with a dual dipole antenna probe, AJP 59, 461-467 (1991).
- Thomas D. Rossing and John R. Hull, Magnetic Levitation, TPT 29, 552-562 (1991).
- K2-45: EDDY CURRENTS - MAGNET AND SOFT DRINK CAN
- None.
- K2-46: MAGNET LEVITATION ABOVE SPINNING DISC
- Thomas D. Rossing and John R. Hull, Magnetic Levitation, TPT 29, 552-562 (1991).
- K2-47: SPEEDOMETER MODEL
- M. Marcuso, R. Gass, D. Jones, and C. Rowlett, Magnetic drag in the quasi-static limit: A computational method, AJP 59, 1118-1123 (1991).
- M. Marcuso, R. Gass, D. Jones, and C. Rowlett, Magnetic drag in the quasi-static limit: Experimental data and analysis, AJP 59, 1123-1129 (1991).
- K2-48: EDDY CURRENT MOTOR
- Bill Reid, The Beer-Can Motor, TPT 29, 352 (1991).
- Thomas D. Rossing and John R. Hull, Magnetic Levitation, TPT 29, 552-562 (1991).
- K2-49: MAGNETIC STIRRER
- R. C. Nicklin, J. G. Lindsay, and T. L. Rokoske, Ampere's Ants, AJP 43, 111-112 (1975).
- K2-61: THOMSON'S COIL
- Harvey E. White and Hans Weltin, Electromagnetic Levitator, AJP 31, 925-929 (1963).
- E. J. Churchill and J. D. Noble, A Demonstration of Lenz' Law?, AJP 39, 285-287, (1971).
- W. R. Towler and J. W. Beams, Magnetic suspension for lecture and classroom demonstrations, AJP 44, 478-480 (1976).
- Arthur R. Quinton, The AC Repulsion Demonstration of Elihu Thomson, TPT 17, 40-41, (1979).
- S. Y. Mak and K. Young, Floating metal ring in an alternating magnetic field, AJP 54, 808-811 (1986).
- Thomas D. Rossing and John R. Hull, Magnetic Levitation, TPT 29, 552-562 (1991).
- Richard V. Mancuso, Letter: Jumping Ring Referenced, TPT 30, 196 (1992).
- Description of Apparatus and Instructions for Use, 79835 Cenco Electromagnetism Apparatus, Central Scientific.
- Text for Showcase Exhibit.
- Gary Stix, AIR TRAINS, Scientific American, August 1992, pp. 102-113.
- K2-62: CAN SMASHER - ELECTROMAGNETIC
- A. W. Desilva, Magnetically Imploded Soft Drink Can, AJP 62(1), 41-45, (1994).
- Ronald J. Allen, A Demonstration of the Magnetic Mirror Effect, AJP 30, 867-869 (1962).
- James C. Thompson, Magnetic Mirror Effect, AJP 31, 397-398 (1963).
- Lecture Demonstration Calculations Sheets.
- Demo Development Calculations and Drawings.
- Demonstration Explanation, "Coke Can Collapse Demonstration," A. Desilva.
- Instruction Sheet, Theta Pinch Demonstration.
- Lecture Demonstration Picture of Apparatus.
- Lecture Demonstration Photograph of Crushed Can and Various Voltages.
- K2-63: DISPLACEMENT CURRENT MODEL
- Lecture Demonstrations Calculations Sheets, Detecting Displacement Current.
- F. W. Warburton, Displacement Current, A Useless Concept, AJP 22, 299-305, (1954).
- Arthur Bierman, Derivation of the Displacement Current From The Biot-Savart Law, AJP 29, 355-356, (1961).
- A. P. French and Jack R. Tessman, Displacement Currents and Magnetic Fields, AJP 31, 201-204, (1963).
- W. G. V. Rosser, Interpretation of the Displacement Current, AJP 31, 807-808, (1963).
- Hans Meissner, Demonstration of Displacement Current, AJP 32, 916-918, (1964).
- Halliday and Resnick, Problems: Reference to Cauwenbergh's Direct Means of D. Current in 1929,
657, (1974).
- W. G. V. Rosser, Displacement current and Maxwell's equations, AJP 43, 502-505 (1975).
- D. F. Bartlett, Conduction current and the magnetic field in a circular capacitor, AJP 58, 1168-1170 (1990).
- K2-64: UNIPOLAR GENERATOR
- R. J. Stephenson, Experiments with a Unipolar Generator and Motor,
AJP 5, 108-110 (1937).
- Dale R. Corson, Electromagnetic Induction in Moving Systems, AJP 24, 126-130, ( 1956).
- David L. Webster, Relativity in Moving Circuits and Magnets, AJP 29,
262-268 (1961).
- Thomas D. Strickler, Variation of the Homopolar Motor, AJP 29, 635
(1961).
- A. K. Das Gupta, Unipolar Machines, Association of the Magnetic Field
with the Field-Producing Magnet, AJP 31, 428-430 (1963).
- David L. Webster, Schiff's Charges and Currents in Rotating Matter,
AJP 31, 590-597 (1963).
- Thomas Strickler, Motional emf's and the Homopolar Motor, AJP 32, 69,
(1964).
- Little Stinkers: Electromagnetic Induction, TPT 4, 1966.
- R. Becker, "Electromagnetic Fields and Interactions, Blaisdell Pub. Co., 378-383, (1964).
- P. Lorrain and D. Corson, Electromagnetic Fields and Waves, W. H. Freeman, 338-343, 657-664, (1970).
- Robert D. Eagleton and Martin N. Kaplan, The radial magnetic field
homopolar motor, AJP 56, 858-859 (1988).
- Daniel F. Dempsey, The rotational analog for Faraday's magnetic induction law: Experiments, AJP 59, 1008-1011 (1991).
- J. Guala Valverde and P. Mazzoni, The principle of relativity as applied to motional electromagnetic induction, AJP 63, 228-229 (1995).
- Gerald N. Pellegrini and Arthur R. Swift, Maxwell's equations in a rotating medium: Is there a problem?, AJP 63, 694-705 (1995).
- Richard E. Berg and Carroll O. Alley, Unipolar Generator: A Demonstration of Special Relativity - Department of Physics and Astronomy, Univ. of MD- College Park.
- Aurthur I. Miller, Frontiers of physics, 1900-1911 Selected Essays: Unipolar Induction: A Case Study of the Interaction Between Science and Technology, 153-180, Birkhauser at Boston, MA.
- Panofsky and Phillips, Classical Electricity an Magnetism, pages 240,
342-345.
K3: TRANSFORMERS
- K3-01: INDUCTION IN A TRANSFORMER
- None.
- K3-02: DEMOUNTABLE TRANSFORMER - SINGLE SPARKS
- None.
- K3-03: DEMOUNTABLE TRANSFORMER - V VS N - PROJ METER
- Joe L. Ferguson, Turn-by-Turn Transformer Demonstration, TPT 17, 59 (1979).
- K3-04: DEMOUNTABLE TRANSFORMER - V VS N - OSCILLOSCOPE
- Joe L. Ferguson, Turn By Turn Transformer Demonstration, TPT 17, 59, (1979).
- K3-05: DEMOUNTABLE TRANSFORMER - WELDER
- None.
- K3-06: DEMOUNTABLE TRANSFORMER - PRIMARY CURRENT VS LOAD
- John Vanderkooy and June Lowe, Apparatus and Demonstration Notes: A magnetic circuit demonstration, AJP 63, 570-571 (1995).
K4: MOTORS AND GENERATORS
- K4-01: AC/DC GENERATOR
- None.
- K4-02: MAGNETOELECTRIC GENERATOR WITH LAMP
- Operating Instructions, Magneto Electric Generator, No. 79895,Central Scientific Co., Franklin Park, IL.
- K4-03: MAGNETOELECTRIC GENERATOR WITH BELL
- None.
- K4-04: MAGNETOELECTRIC GENERATOR WITH AC INDICATOR BULB
- None.
- K4-05: MAGNETOELECTRIC GENERATOR WITH METERS AND LOADS
- None.
- K4-06: MAGNETOELECTRIC GENERATOR WITH CAPACITOR AND METER
- None.
- K4-07: BICYCLE GENERATOR
- Joseph Priest, George Priest, Generating Class Interest, TPT 19, 188-189, (1981).
- Dean Zollman, George Athey, Variations on the Bicycle Generator, TPT 14, 61-62, (1976).
- Lecture Demonstrations Calculations Sheet, Hot Dog Cooker with Bicycle Generator.
- K4-21: ST. LOUIS MOTOR
- Lecture Demonstrations Record Form.
- K4-22: DC MOTOR
- None.
- K4-23: AC MOTOR - SYNCHRONOUS
- None.
- K4-24: AC/DC MOTOR
- Lecture Demonstrations AC/DC Motor Diagram.
- K4-25: DC MOTOR - HOMEMADE
- None.
- K4-41: MOTOR-GENERATOR PAIR
- John A. Johnson, Franklin Miller, Jr., A Motor is a Generator and Vice Versa, TPT 14, 36-37, (1976).
- Instructions, Genecon- Manual Electric Generator, Nakamura Scientific Co. LTD., Tokyo, Japan.
K5: ELECTRICAL PROPERTIES OF MATTER
- K5-01: PIEZOELECTRICITY
- Instructions: Piezoelectric Demonstrator, Cat. No. 710A, Frey Scientific Co.
- K5-02: PIEZOELECTRIC CRYSTAL - AUDIBLE
- None.
- K5-03: PIEZOELECTRIC IGNITOR
- None.
- K5-04: PIEZOELECTRIC GUN
- None.
- K5-11: BATTERY MODEL
- None.
- K5-12: BATTERY AND CIRCUIT - WORKING MODEL
- None.
- K5-13: ELECTRIC CURRENT - MODEL
- Leonard B. Loeb and H. M. Herreman, A Simple Demonstration of an Analogy to the Electromotive Force, Potential Difference and Resistances in a Circuit, AJP 4, 34-? (1936).
- K5-14: ELECTRIC CELL
- S. Mascarenhas, F. Gambirasio, and Y. Mascarenhas, CO2 Electrostatic Generator, AJP 26, 563-566 (1958).
- K5-15: CURRENT IN BICEPS MUSCLE
- Gerald Oster, Muscle Sounds , Scientific American, 108-114, ( Mar. 1984).
- Lecture Demonstrations Record Form.
- K5-16: CARRIER CURRENT DENSITY MODEL
- None.
- K5-21: AC PLUG CIRCUIT CHECKER
- Thomas James Higgins, Evolution of the Three-Phase 60-Cycle Alternating-Current System, AJP 13, 32-36 (1945).
- K5-22: AC PLUG CIRCUIT CHECKER CHECKER
- None.
- K5-23: ROTATING TWO-COLOR LED
- None.
- K5-31: OHM'S LAW
- Steven A. Waltner and Thomas A. Lehman, When is Ohm's Law Valid?, TPT 31, 102-103 (1993).
- J. D. Jackson, Surface charges on circuit wires and resistors play
three roles, AJP 64, 855-870 (1996).
- K5-32: RESISTANCE VS DIAMETER AND LENGTH
- None.
- K5-33: CONDUCTIVITY OF SALT SOLUTION
- None.
- K5-34: THERMAL COEFFICIENT OF RESISTANCE IN COPPER
- Lecture Demonstration Record Form.
- David Henry, Resistance of a Wire as a Function of Temperature, TPT 33, 96-97 (1995).
- K5-35: RESISTORS AT LN TEMPERATURE
- None.
- K5-36: RESISTORS AT LN TEMPERATURE - LIGHT BULB INDICATOR
- None.
- K5-41: V-I CURVES FOR OHMIC AND NON-OHMIC DEVICES
- Thomas A. Walkiewicz and James R. Kirk, Characteristic Curves, TPT 32, 90-92 (1994).
- K5-42: TRANSISTOR
- Novel Experiments in Physics: Amplification, University of California, Berkeley, 1963.
- A. Sconza, G. Torzo, and G. Viola, Experiment on the physics of the PN junction, AJP 62, 66-70 (1994).
- K5-43: NON-OHMIC DEVICE - V VS I
- None.
- K5-44: NON-OHMIC DEVICE - LIGHT BULB
- None.
- K5-45: SEMICONDUCTOR MODEL
- Meiners, Physics Demonstrations Expts., 40-1.1 Charge Motion Demonstrator, 1220.
K6: ELECTRIC CIRCUITS AND INSTRUMENTS
- K6-01: SERIES AND PARALLEL LIGHTS - TWO BULBS
- Robert A. Morse, "Feeling" Series and Parallel Resistances, TPT 31, 347 (1993).
- Walter R. Steiger and Suk R. Hwang, Trick of the Trade: A Series-Parallel Demonstration, TPT 33, 590 (1995).
- K6-02: SERIES AND PARALLEL LIGHTS - FIVE BULBS
- Instructions for the Use of Sargent-Welch No. 2802B Parallel-and-Series
Circuit Demonstrator.
- Directions for Lamp Rheostat, Cat. No. 83030, Cenco Scientific Co., Chicago, IL.
- Catalog Description, 83030 Lamp Rheostat Board, Cenco Scientific
Co., Chicago, IL.
- Walter R. Steiger and Suk R. Hwang, Trick of the Trade: A
Series-Parallel Demonstration, TPT 33, 590 (1995).
- K6-03: SERIES AND PARALLEL LIGHTS - BATTERY AND CLIP-ON WIRES
- None.
- K6-11: CIRCUIT PARADOXES
- C. Frank Griffin and Peter N. Henriksen, Physics challenges, TPT 18, 135-136 (1980).
- R. Cohen, B. Eylon, and U. Ganiel, Potential difference and current in simple electric circuits: A study of students' concepts, AJP 51, 407-412 (1983).
- Lillian Christie McDermott, Millikan Lecture 1990: What we teach and what is learned - Closing the gap, AJP 59, 301-315 (1991).
- K6-21: HEATING IN CURRENT-CARRYING WIRE
- Richard C. Hitchcock, Mark W. Zemansky, Demonstrating Linear Thermal Expansion By Using the Catenary, AJP 13, 329-333, (1945).
- K6-22: ENERGY CONVERSION - IMMERSION HEATER
- None.
- K6-23: HOT DOG COOKER - 110 VAC
- Robert F. Neff, Hot Dog Conduction. An Edible Experiment, TPT 13, 50, (1975).
- Lecture Demonstrations Record Form and Test Data.
- Lecture Demonstrations Drawing of Apparatus.
- K6-31: THERMAL GALVANOMETER
- Catalog Description: 53120 Model of a Hot-Wire Instrument, Leybold Co.
- Sutton, Demonstration Experiments in Physics, Demonstration H-11.
- K6-32: POTENTIOMETER
- None.
- K6-33: WHEATSTONE BRIDGE
- None.
- K6-34: METER WITH SHUNTS AND MULTIPLIERS
- None.
- K6-35: VOLTAGE DIVIDER
- None.
- K6-41: DIODE RECTIFIERS AND FILTERS
- Lecture Demonstration Record Form, Test Data, and Circuit Diagram.
- Sergio Mascarenhas, Half-Wave, Full-Wave Rectification and Filter Action without an Oscilloscope, AJP 25, 584 (1957).
- K6-42: SINE WAVE AND RECTIFIED SINE WAVE
- None.
- K6-43: POWER SUPPLY DEMONSTRATOR
- None.
- K6-44: SPECTRUM OF RECIFIED SINE WAVE
- None.
- K6-51: KIRCHHOFF'S LAWS
- Circuit and analysis for demonstration.
- K6-52: IMPEDANCE MATCHING - BATTERY AND JOULEMETER
- Unilab Instructions Manual, England.
- K6-61: TV MONITOR WITH OSCILLATOR
- None.
K7: RLC CIRCUITS
- K7-01: RL CIRCUITS - 50 MICROSECOND TIME CONSTANT
- None.
- K7-02: RL CIRCUIT - L/R TIME CONSTANT
- Catalog Description: Slow AC Experiments, Unilab, England.
- Lecture Demonstrations Sketch of Circuit Diagram.
- K7-03: INDUCTOR DELAYING A LAMP
- None.
- K7-11: RC CIRCUIT - RC TIME CONSTANT - OSCILLOSCOPE
- J. Gordon Stipe, Transient Currents in Switched DC Circuits, Novel Experiments in Physics II.
- Robert A. Egler and William M. Mauney, Capacitor Current-Voltage Phase Difference, TPT 29, 398 (1991).
- I. Fundaun, C. Reese, and H. H. Soonpaa, Charging a capacitor, AJP 60, 1047-1048 (1992).
- K7-12: RC CIRCUIT - RC TIME CONSTANT - PROJECTION METERS
- None.
- K7-13: RC CIRCUIT - RC TIME CONSTANT - STORAGE SCOPE
- None.
- K7-14: RC CIRCUIT - 100 MICROSECOND TIME CONSTANT
- None.
- K7-15: CURRENT IN RC CIRCUIT?
- None.
- K7-21: RLC CIRCUIT - 10 KHZ - RESONANCE
- None.
- K7-22: RLC CIRCUIT - 10 KHZ - DAMPED OSCILLATIONS
- None.
- K7-23: RLC CIRCUIT - 60 HZ
- None.
- K7-24: RLC CIRCUIT - 60 HZ WITH LIGHT BULB LOAD
- Selective Experiments in Physics, Reactance, Impedance, and Electric Resonance, Cenco Scientific Co., (1972).
- K7-25: RLC CIRCUIT - 0.3 HZ
- None.
- K7-26: RLC CIRCUIT - 0.1 HZ
- Catalog Description, Slow AC Experiments, Unilab, England.
- Lecture Demonstrations Photograph of Demo Set-up with Circuit Diagram.
- K7-27: RLC CIRCUIT - 10KHZ - PHASE SHIFTS
- Lecture Demonstration Circuit Diagram.
- Zdenek Hurych, Study of the phase relationships in resonant RLC circuits using a dual-trace oscilloscope, AJP 43, 1011-1012 (1975).
- K7-28: RLC CIRCUIT - 0.6 HZ WITH STORAGE SCOPE
- None.
- K7-29: RLC CIRCUIT - 0.6 HZ - TRANSIENTS
- None.
- K7-41: RC CIRCUIT - DIFFERENTIATION AND INTEGRATION
- Lecture Demonstrations Circuit Diagram.
- K7-42: BARRICADE FLASHER
- None.
- K7-43: RELAXATION OSCILLATOR - NEON LAMP
- Zenon Gubanski, Capacitance by Relaxation Oscillations, TPT 9, 104, (1971).
- Paul Chagnon, Animated Displays V: Relaxation Oscillators, TPT 32, 432-436 (1994).
- K7-44: RLC CIRCUIT - 10 KHZ - DIFFERENTIATION AND INTEGRATION
- None.
- K7-45: LOW AND HIGH PASS FILTERS
- Lecture Demonstrations Circuit Diagram with Transparency.
- K7-46: PHASOR DISC
- None.
- K7-61: TESLA COIL
- Marc J. Seifer, Wizard: The Life and Times of Nikola Tesla - Biography
of a Genius, Birch Lane Press, Secaucus, NJ, 1996, 542 pp, ISBN
1-55972-329-7. Book review by Robert H. March, Physics Today, September
1997, p. 65 in Demonstration Reference File.
- James B. Kellen, Lee Bunbar, Sr., The Tesla Coil, AJP 20, 32-35, (1952).
- Donald G. Bruns, A solid-state low-voltage Tesla coil demonstrator, AJP 60, 797-803 (1992).
- Directions for Use: Cat. No. 80721 Cenco High Frequency Tesla Coil, Cenco Scientific Co., Chicago, IL.
K8: ELECTROMAGNETIC WAVES
- K8-01: ELECTROMAGNETIC WAVE - MODEL
- Paul A. Bender, Wooden electromagnetic waves, AJP 53, 279-280 (1985).
- K8-02: INTRODUCTION TO LIGHT BEHAVIOR
- None.
- K8-03: LIGHT NANOSECOND
- None.
- K8-04: SPEED OF LIGHT
- None.
- K8-11: MICROWAVES - STANDING WAVES
- None.
- K8-12: RADIOWAVES - STANDING WAVES
- Operating Instructions, Short Wave Radio Demonstration Apparatus, Cenco No. 080435, Cenco Scientific Co., Chicago, IL.
- Richard M. Sutton, Demopnstration Experiments in Physics, A34-39, 853-859.
- Lecture Demonstrations Photographs of Demonstrations in Use.
- K8-13: RADIOWAVES - LECHER WIRE STANDING WAVES
- Operating Instructions, Short Wave Radio Demonstration Apparatus, Cenco No. 080435, Cenco Scientific Co., Chicago, IL.
- Richard M. Sutton, Demopnstration Experiments in Physics, A34-39, 853-859.
- Lecture Demonstrations Photographs of Demonstrations in Use.
- K8-14: RADIOWAVES - STANDING WAVES IN AN ANTENNA
- Operating Instructions, Short Wave Radio Demonstration Apparatus, Cenco No. 080435, Cenco Scientific Co., Chicago, IL.
- Richard M. Sutton, Demopnstration Experiments in Physics, A34-39, 853-859.
- Lecture Demonstrations Photographs of Demonstrations in Use.
- K8-21: MICROWAVES - WAVE GUIDES
- Catalog Description: Directional Couplers Model 752A, C, D, Hewlett Packard Microwave Test Equipment.
- K8-22: MICROWAVES -TUBULAR WAVEGUIDE
- None.
- K8-31: TRANSMISSION LINE SAMPLE
- None.
- K8-32: PULSES IN TRANSMISSION LINES
- H. P. Stabler, Apparatus Notes: Pulses on a Transmission Line with a Tektronix 545A Oscilloscope, AJP 29 #2, ix-x (1961).
- Ronald I. Rank, Speed of a Pulse in a Transmission Line, TPT 7, 344-345 (1969).
- D. J. Martin, Wave propagation in dispersive and attenuation media: A
delay line simulation of plasma waves, AJP 48, 473-477 (1980).
- Operating Instructions, Short Wave Radio Demonstration Apparatus, Cenco No. 080435, Cenco Scientific Co., Chicago, IL.
- Lecture Demonstration Photographs and description of Demonstration.
- K8-33: NANOSECOND CABLES
- None.
- K8-41: HERZIAN DIPOLES
- None.
- K8-42: RADIOWAVES - ENERGY AND DIPOLE PATTERN
- None.
- K8-43: RADIOWAVES - FREQ MEASUREMENT WITH OSCILLOSCOPE
- Operating Instructions, Short Wave Radio Demonstration Apparatus, Cenco No. 080435, Cenco Scientific Co., Chicago, IL.
- Lecture Demonstrations Photographs of Demonstrations in Use.
- K8-44: RADIOWAVES - COUPLING OF WAVES
- Operating Instructions, Short Wave Radio Demonstration Apparatus, Cenco No. 080435, Cenco Scientific Co., Chicago, IL.
- Lecture Demonstrations Photographs of Demonstrations in Use.
- K8-51: INFRARED EYE
- None.