Clark Rowland, and Sabin Popescu, An experimental Ferguson, A supersensitive LED Faraday's law demonstration, TPT Robert Kingman and Sabin Popescu, Motional EMF demonstration Sawicki, Improved flashbulb demonstration of Faraday's law, K2-29: COIL AND MAGNET WITH LED SENSOR Charles A. K2-28: DEMOUNTABLE TRANSFORMER - 10KV ARC None. Crawford, Mutual inductance M12=M21: An elementary derivation, AJP 60, 186 (1992). K2-27: MUTUAL INDUCTION - M12=M21 MEASUREMENT Frank S. K2-25: MUTUAL INDUCTION - DEMOUNTABLE TRANSFORMER None. Schematic Diagram, ID-300 Modified Ruhmhorff Induction Coil, K2-21: RUHMKORFF INDUCTION COIL Catalog Description, 2382 Induction Coil, Sargent Welch. K2-12: SELF INDUCTION - DEMOUNTABLE TRANSFORMER None. Brown, Improved Demonstration of Self-Induction, AJP 27, 59 (1959). K2-05: FARADAY 'S EXPERIMENT - CONCENTRIC COILS None. K2-04: FARADAY'S EXPERIMENT - EME SET - 20, 40, 80 TURN COILS None. K2-03: FARADAY'S EXPERIMENT ON INDUCTION None. Electromagnetism Series, Teacher's Guide, Units 5: Electromagnetic Induction. Manzanares, Juan Bisquert, Germa Garcia-Belmonte, and Mercedes Fernandez-Alonso, An experiment on magnetic induction pulses, AJP 62, 702-706 (1994). Hermann Haemmerle, A New Apparatus for Demonstrating and Induced Electromotive Force, AJP 17, 317 (1949).ĭavid Harrison, Apparatus Notes: Discovering induction, AJP 49, 603 (1981). Houston, The Laws of Electromagnetic Induction, AJP 7, 373-378 (1939). K2-01: EARTH INDUCTOR Instructions for Use: Cat No. Johnson, Inertial forces and the Hall effect, AJP 68, 649-653 (2000). Jessee, Construction of a Faraday "Dynamo," AJP 41, 120-121 (1973). Miller, Moving Water with No Moving Parts, TPT 35, 531 (1997). Greenslade, Jr., Devices to Display Electromagnetic Rotation, TPT 34, 412-416 (1996). Stanislaw Bednarek, Apparatus and Demonstration Notes: Self-powered magnetohydrodynamic motors, AJP 64, 90-92 (1996). Driver, Comment on "The Hall effect in a flowing electrolyte, (1978).Įarl Zwicker: Doing Physics column: The Right-Hand Rule Made Visible?, TPT27 (9), 684-686. Igor Alexeff, Marshall Pace, Leon Hofer, and Karl Lonngren, A Simple MHD Power Generator for the Student Laboratory, AJP 41, 203-206 (1973).Īrthur Kantrowitz and Richard J. Wright and Stephen Van der Beken, The Hall Effect in a Flowing Electrolyte, AJP 40, 245-247 (1972). Rayner, Experiments in Magnetohydrodynamics, AJP 38, 736-740 (1970). Lingelbach, Demonstration Electromagnetic Pump, AJP 23, 301-302 (1955). Ryerson, An Interesting Exhibit, AJP 17, 520 (1949). K1-23: TORQUE ON CURRENT LOOP - MODEL None. K1-22: TORQUE ON 500-TURN COIL IN MAGNETIC FIELD None. Hnizdo, Comment on "Torque and force on a magnetic dipole" by Lev Vaidman, AJP 60, 279-280 (1992). K1-21: TORQUE ON CURRENT LOOP IN MAGNETIC FIELD Lev Vaidman, Torque and force on a magnetic dipole, AJP 58, 978-983 (1990). K1-15: OSCILLOSCOPE CRT - DEFLECTION BY ELECTRIC FIELD None. Schematic Diagrams for Oscilloscope Circuits. Tektronix T0510 Performance Curves, CRT Data, (1965). Shepard, Magnetic Experiments with a Cathode Ray Tube, TPT 5, 153-155, (1967). K1-14: OSCILLOSCOPE CRT - DEFLECTION BY MAGNET J. K1-13: CATHODE-RAY TUBE - DE LA RIVE MAGNETIC EFFECT None. K1-12: CATHODE-RAY TUBE - DEFLECTION BY MAGNET Operating Instructions, Cathode Ray Tube, Model CR-100-A, Electro-Technic Products. K1-11: CATHODE-RAY TUBE - DEFLECTION BY CURRENT Operating Instructions, Cathode Ray Tube, Model CR-100-A, Electro-Technic Products. K1-05: FORCE BETWEEN CURRENT-CARRYING COILS None. K1-04: FORCE ON CURRENT IN MAGNETIC FIELD - PORTABLE None. K1-03: FORCE ON CURRENT IN MAGNETIC FIELD None. K1-02: FORCE BETWEEN CURRENT-CARRYING WIRES - PROJECTION None. Vidal, Magnetic Field Demonstrations, AJP 31, 59-60, (1963).īlane Baker, Demonstrating forces between parallel wires, TPT 38, 299 Kirwan, Forces Exerted Between Parallel Conductors, TPT 13, 113-114, (1975). K1-01: FORCE BETWEEN CURRENT-CARRYING WIRES Bruce Bernero, A Demonstration of Magnetic Force Upon a Current-Carrying Wire, TPT 25, 88, (1987). This was the beginning of further understanding leading to the atomic theory and structure that we know today.Ĭathode ray tube is a tube that contains a small amount of gasīetween two metallic plates.REFERENCES REFERENCES SECTION K K1: FORCES ON MOVING CHARGES He won the 1906 Nobel prize for the discovery of electrons. He zapped atoms with electricity and observed that negatively charged particles were removed! He reasoned that atoms consisted of subatomic particles, electrons that were negatively charged particles. Thomson, a British physicist, conducted the cathode ray experiment. Previously, atoms were known to be indivisible, but in 1897, J.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |