REFERENCES
REFERENCES SECTION D
D1: ROTATIONAL KINEMATICS AND DYNAMICS
- D1-01: STROBOSCOPE AND FAN
- None.
- D1-02: PELLET VELOCITY FROM ROTATING DISCS
- None.
- D1-03: VELOCITY WHEEL
- Velocity wheel - the determination of the velocity as a function of
time, and the acceleration, from a University of Maryland laboratory
description.
- D1-11: CYCLOID - LIGHT BULB ON WHEEL
- Peter L. Tea, Jr, On seeing instantaneous centers of velocity, AJP 58, 495-497 (1990).
- D1-12: ADDITION OF ANGULAR VELOCITY
- None.
- D1-21: ANGULAR VELOCITY - OBERBECK CROSS
- Lecture Demonstration Model Photograph.
- D1-31: TRAJECTORY FROM SPIRAL
- Michael McCloskey, Intuitive Physics, Scientific American Volume 248 # 4, April 1983, pp. 122-130.
- Sutton, Demonstration Experiments on Physics, Demonstration M-137. Centrifugal Force vs. Centripetal Force.
- D1-32: TRAJECTORY FROM CIRCULAR ORBIT
- Jonathan Mitschele, A New Use for an Old Pickle Bucket, TPT 32, 252-253 (1994).
- Harry Rheam, Tricks of the Trade: Centripetal Force on an Overhead Projector, TPT 33, 182 (1995).
- D1-33: ROTATING MASS ON STRING
- "JWB", Centripetal-Centrifugal Force Again, TPT 3, 173-174 (1965).
- Herman Erlichson, Motive force and centripetal force in Newton's mechanics, AJP 59, 842-849 (1991).
- Kaye M. Elsner, Visualizing Centripetal Force, TPT 32, 176-177 (1994).
- K. R. Brownstein, A simple derivation of centripetal acceleration, AJP 62, 946 (1994).
- D1-34: ROTATING MASS ON SPRING
- None.
- D1-35: CENTRIPETAL FORCE - ROTATING MASS
- Mildred Allen, The Stability of Centripetal Force Apparatus, AJP 15, 470-473, (1947).
- Samuel Jacobs, New Derivations of a = v^2/r, TPT 16, 169-170, (1978).
- Robert P. Bauman, What is Centripetal Force?, TPT 18, 527-529, (1980).
- Alex Fogel, Apparatus for Teaching Physics: Building a "no-cost" apparatus to demonstrate rotational inertia, TPT 22, 333 (1984).
- Joe Bunn and Jay Smith, Apparatus for Teaching Physics: Measure Centripetal Force for Under $3, TPT 32, 380-381 (1994).
- D1-36: AIR TABLE - CENTRIPETAL FORCE
- None.
- D1-37: MUDSLINGER
- Frank O. Goodman, Mud thrown from a wheel again, AJP 63, 82-83 (1995).
- D1-38: MAGNETSLINGER
- None.
- D1-39: PENNY AND COAT HANGER
- John Dixon, A Penny for Your Thoughts, TPT 4, 38, (1966).
- George W. Ficken, Jr., Putting a Penny "into Orbit," AJP 40, 776 (1972).
- Phyllis Salmons, The Penny and the Coat Hanger, TPT 15, 46, (1977).
- D1-40:CENTRIPETAL FORCE ON ROTATING RUBBER BAND
- None.
- D1-41: ROTATING WATER BUCKET
- D1-42: ROTATING WATER BUCKET WITH SPONGE
- None.
- D1-43: INERTIAL FORCES - BALLS IN ROTATING JARS
- M. A. Waggoner, Lecture Demonstration Instructions Sheet.
- Meiners, Physics Demonstration Experiments, Inertial Forces: Demonstration 8-3.2, pages 143-144.
- Meiners, Physics Demonstration Experiments, Section 8-3.6, page 145.
- Julius Sumner Miller, Two Demonstration Devices, AJP 30, 385-386 (1962).
- C. Pontiggia, A. Marciano, and E. Piano, Gravitational field and accelerated frame: A simple apparatus, AJP 53, 915-916 (1985).
- D1-44: ACCELEROMETERS AND FRAMES OF REFERENCE
- None.
- D1-51: BANKED CURVE MODEL
- Albert A. Bartlett, A Simple Problem from the Real World That Can Be Solved through Time Reversal, AJP 42, 416-417 (1974).
- D1-52: FAIRGROUND ROTOR
- None.
- D1-53: LOOP-THE-LOOP
- Richare M. Sutton, A Reversed Loop-the-Loop, AJP 29, 48-59,(1961).
- Oleg Jefimenko, Water Stream "Loop-the-Loop, AJP 42, 103-105,(1974).
- Alan Cromer, An Unusual Rolling-Sphere Phenomenon, TPT 34, 48-50 (1996).
- Operating Instructions, Loop-the-Loop,Cat No. 75416, Atomic Labs Inc., Chicago, Ill.
- Instructions Sheet, Loop-the-Loop Demonstrator,Cat. No. 075416, Cenco-Miller,Chicago, Ill.
- Instructions Sheet, Loop-The-Loop, Cat. No. 0814B and 0814C, Sargent-Welch Scientific Co.,Skokie, Ill.
- D1-54: ROTATING MASSES IN SERIES
- None.
- D1-55: ROTATING ELASTIC RINGS
- None.
- D1-61: ROLLING VS. SLIDING
- Mario Iona, Letter: Sliding is Faster Than Rolling, TPT 27, 230 (1989).
- D1-62: CONSERVATION OF ENERGY IN ROLLING BODY
- J. Thomas Dickinson, Rolling Spool Experiment,TPT 10, 210-211 (1972).
- D1-63: MAXWELL PENDULUM - LARGE
- None.
- D1-64: MAXWELL PENDULUM - SMALL
- None.
- D1-65: YO-YO
- William Boudreau, Cheap and Simple Yo-Yos, TPT 28, 92 (1990).
- Lecture Demonstration Instructions Sheet.
- D1-81: TRICYCLE
- Little Stinkers: Motion of a Kiddie Car, TPT 1, 92 (1963).
- Little Stinkers: Little Stinkers of May 1963: Two Solutions of a Problem, TPT 1, 192-193 (1963).
- Thomas J. Parmley, J. Irvin Swigart, and Ray L. Doran, Lecture Demonstrations for the High School Science Teacher, TPT 4, 36-38 (1966).
- Problems That Bother Me: Bicycle Problem, TPT 4, 144 (1966).
- J. D. Nightingale, Which Way Will the Bike Move?, TPT 31, 244-245 (1993).
- Sutton, Demonstration Experiments in Physics, Demonstration M-25.
- Meiners, Physics Demonstration Experiments, Section 12-4.3.
- D1-82: ROLLING FRICTION
- G. D. Freier, Frictional forces which may or may not oppose the motion, AJP 34, xxix (1966).
- G. D. Freier and F. J. Anderson, A Demonstration Handbook for Physics (AAPT, College Park, MD, 1981), Demonstration Ms-6. Force Between Surface and Rolling Object, p. M-44.
- Donald E. Shaw, Frictional force on rolling objects, AJP 47, 887-888 (1979).
- John Sherfinski, Rotational dynamics - Two fundamental issues, TPT 26, 290 (1988).
- Robert J. Reiland, Two fundamental surprises, TPT 27, 326 (1989).
- Richard E. Berg, Traction Force on Accelerated Rolling Bodies,TPT, 600-601,(Dec 1990).
- Sol Krasner, Why Wheels Work: A Second Version, TPT 30, 212-215 (1992).
- Ian Edmunds, Nicholas Giannakis, and Chris Henderson, Cyclotron analog applied to the measurement of rolling friction, AJP 63, 76-80 (1995).
- Francesc Castellvi, Joan I. Rosell, and Pedro J. Perez, Using Plasticine to Measure the Rolling Friction Coefficient, TPT 33, 276-278 (1995).
- D1-83: SPOOL
- Sutton, Demonstration Experiments in Physics, Demonstration M-24. Action of a Torque.
- Meiners, Physics Demonstration Experiments, Section 12-5.3.
- Gordon M. Martin, Unwinding a Spool, AJP 26, 194-195 (1958).
- Wallace A. Hilton, A Spool That Obeys Orders, TPT 2, 139 (1964).
- Thomas J. Parmley, J. Irvin Swigart, and Ray L. Doran, Lecture Demonstrations for the High School Science Teacher, TPT 4, 76-78 (1966).
- Paul Chagnon, Animated Displays III: Mechanical Puzzles, TPT 31, 32-37 (1993).
- D1-84: SPINNING CYLINDRICAL SHELL
- George Barnes, Conservation of momentum demonstration using a piece of
sewer pipe, AJP 54, 741 (1986).
D2: MOMENT OF INERTIA
- D2-01: RING AND DISC ON INCLINED PLANE
- Operating Instructions, Moment of Inertia Ring and Disk, TekSys Corp., Newark, Ill.
- Operating Addendum, Moment of Inertia Ring and Disk, TekSys Corp., Newark, Ill.
- Sutton, Demonstration Experiments in Physics, M-161. Racing Rollers.
- W. P. Berggren and M. E. Gardner, Quantitative Treatment of the Racing-Roller Demonstration, AJP 9, 243 (1941).
- W. B. Pietenpol, Rolling Spheres and Cylinders, AJP 13, 260-261 (1945).
- Robert H. March, Who Will Win The Race?, TPT 26, 297 (1988).
- George W. Ficken, Jr., Letter: A Hoop, Not a Cylinder, TPT 32, 197 (1994).
- D2-02: MISCELLANEOUS BODIES ON INCLINED PLANE
- Clinton Thomas, Loading a Disc for a Mechanics Demonstration, TPT 5, 287-288 (1967).
- Robert H. March, Who Will Win the Race?, TPT 26, 297, (1988).
- Carl R. Stannard, Thomas P. O'Brien, and Andrew J. Telesca, Jr., A Ball with Pure Translational Motion?, TPT 30, 526-527 (1992).
- George W. Ficken, Jr., Letter: A Hoop, Not a Cylinder, TPT 32, 197 (1994).
- Ian Thomas, Letter: Another Rolling Paradox, TPT 32, 200 (1994).
- Karl C. Mamola, A Rotational Dynamics Demonstration, TPT 32, 216-219 (1994).
- Segment from: The Two New Sciences of Galileo, Third Day
- Mellissinos and Lobkowicz, Physics for Scientists and EngineersFigure 10-18 The moments of inertia of some rigid bodies about specific axes.
- Resnick and Halliday, Physics, Table 12-1 Moments of Inertia opf rigid bodies around axis.
- D2-03: CANS ON INCLINED PLANE - WITH AND WITHOUT WATER
- G. D. Nickas, Reversing relative displacement in rolling fluids, AJP 57, 907 (1989).
- Byron L. Coulter and Carl G. Adler, Can a body pass a body falling through the air?, AJP 47, 841-846 (1979).
- K. A. Jackson, J. E. Finck, C. R. Bednarski, and L. R. Clifford, Viscous and nonviscous models of the partially filled rolling can, AJP 64, 277-282 (1996).
- D2-11:HINGED STICK AND FALLING BALL
- Philip A. Constantinides, Experiments on Torque, Angular Acceleration and Moment of Inertia, AJP 7, 254-257, (1939).
- Carl A. Ludeke, Experimental Examples in Dynamics, AJP 9, 162-166, (1941).
- Julius Sumner Miller, On Demonstating A Classical Problem In Analytical Mechanics, AJP 20, 455-456, (1952).
- Richard M. Sutton, Some teasers for conclusion jumpers, AJP 21, 658 (1953).
- Wallace A. Hilton, Free Fall Paradox, TPT 3, 323-324, (1965).
- George W. Ficken, Jr., "Falling" Faster than g, AJP 41, 1013-1015 (1973).
- Albert A. Bartlett, Falling Chimney Apparatus Modification, TPT 13, 435-437, (1975).
- Jerry L Adams, Acceleration Greater Than "G", TPT 20, 100-101, (1982).
- W.M. Young, Faster Than Gravity!, AJP 52, 1142, (1984).
- W.F.D. Theron, the "Faster Than Gravity" Demonstration Revisited, AJP 56, 736-739, (1988).
- D2-12: TOPPLING CHIMNEY
- Richard M. Sutton, Concerning Falling Chimneys, Science, Vol. 84, No. 2176 pp. 246-247 (September 11, 1936).
- Francis P. Bundy, Stresses in Freely Falling Chimneys and Columns, Journal of Applied Physics, Volume 11, pp. 112-123 (February 1940).
- Joseph B. Reynolds, Falling Chimneys, Science, Vol. 87, No. 2252 pp. 186-188 (February 25, 1938).
- Arthur Taber Jones, The Falling Chimney, AJP 14, 275, (1946).
- James R. Keady, Using Blocks to Demonstrate Inertia, Center of Gravity, and Friction, TPT 5, 292 (1967).
- Albert A. Bartlett, More on the falling chimney, TPT 14, 351-353 (1976).
- Ernest L. Madsen, Theory of the chimney breaking while falling, AJP 45, 182-184 (1977).
- D2-13: RACING PENDULA
- Paul O. Hoffman, A Mechanics Demonstation, AJP 23, 624-625, (1955).
- F. S. Crawford, Jr., Remarks on "A Mechanics Demonstration," AJP 24, 459 (1956).
- D2-21: CENTER OF PERCUSSION - BAT AND MALLET
- Paul Kirkpatrick, Batting the Ball, AJP 31, 606-613, (1963).
- H. Brody, Physics of the Tennis Racket, AJP 47, 482-487, (1979).
- H. Brody, Physics of the Tennis Racket II: The "Sweet Spot", AJP 49, 816-819, (1981).
- H. Brody, The Sweet Spot of a Baseball Bat, AJP 54, 640-643, (1986).
- Howard Brody, Models of baseball bats, AJP 58, 756-758 (1990).
- L. L. Van Zandt, The dynamical theory of the baseball bat, AJP 60, 172-181 (1992).
- D2-31: OBERBECK CROSS
- H. A. Perkins, A. P. R. Wadlund, H. D. Doolittle, An Elementary Laboratory Experiment on Moment of Inertia, AJP 6, 70-71, (1938).
- Willard L. Erickson, Moment of Inertia Experiment, AJP 19, 401-403, (1951).
- Edward B. Nelson, A Simple Experiment i Rotational Dynamics, AJP 33, 848-849, (1965).
- Hans C. Ohanian, Rotational motion and the law of the lever, AJP 59, 182 (1991).
- Meiners, Mechanics, Physical Pendulum, Vol 1, 353.
- Lecture Demonstration Sample Data Sheet.
- Complete set of mechanical drawings.
- D2-32: AIR TABLE - LINEAR AND ANGULAR ACCEL OF DISC
- Lecture Demonstration Sample Data Sheets.
- D2-41: MOMENTS OF INERTIA ABOUT 3 PRINCIPLE AXES
- Lecture Demonstration Data Sheets.
- Joseph C. Amato, Roger E. Williams, and Hugh Helm, A "black box" moment of inertia apparatus, AJP 63, 891-894 (1995).
- D2-42: MOMENTS OF INERTIA - TORSIONAL CHAIR AND BOARD
- None.
- D2-43: MOMENTS OF INERTIA - TORSIONAL CHAIR AND
WEIGHTS
- None.
D3: ANGULAR MOMENTUM
- D3-01: MASSES SLIDING ON ROTATING CROSSARM
- William R. Mallory, Moment-of-inertia demonstrator, AJP 43, 563 (1975).
- Richard E. Berg and Robert E. Anders, Angular Momentum Conservation Demonstration, TPT 27, 561-562 (1989).
- T.M. Kalotas and A. R. Lee, A simple Device to Illustrate Angular Momentum Conservation and Instability, AJP 58, 80-81, (1990).
- D3-02: MASS ON STRING - ORBITS WITH VARYING RADIUS
- John H. Walters, Jr., Centripetal Force Apparatus, AJP 29, 212, (1961).
- A.H. Benade, Comments on Centripetal Force Experiment, AJP 29, 712, (1961).
- D3-03: ROTATING CHAIR AND WEIGHTS
- None.
- D3-04: ROTATING STOOL AND WEIGHTS
- H.W. Dosso, R. H. Vidal, Simple Apparatus for Angular Motion
Demonstrations, AJP 30, 528-529, (1962).
- James A. Riley and Oscar G. Fryer, Three Accessories For A Rotating Platform, TPT 18, 205-206, (1980).
- D3-05: ROTATING CHAIR AND BICYCLE WHEEL
- S. J. Barnett, Models to Illustrate Gyromagnetic and Electron-Inertia Effects, AJP 5, 1-6, (1937).
- S. Y. Mak and K. Y. Wong, A qualitative demonstration of the conservation of angular momentum in a system of two noncoaxial rotating discs, AJP 57, 951-952 (1989).
- D3-06: ROTATING CHAIR - HELICOPTER MODEL
- None.
- D3-11: SWING PUMPING
- Little Thinkers Column, " A Child's Swing", TPT 4, 307, (1966).
- Little Thinkers Column (Answer), "A Child's Swing, TPT 4, 374-375, (1966).
- Peter L. Tea, Jr., Harold Falk, Pumping on a swing, AJP 36, 1165-1166, (1968).
- Bryan F. Gore, The Child's Swing, AJP 38, 378-379 (1970).
- Joseph A. Burns, More on Pumping a Swing, AJP 38, 920-922 (1970).
- Bryan F. Gore, Starting a Swing From Rest, AJP 39, 347, (1971).
- John T. McMullen, On Initiating Motion in a Swing, AJP 40, 764-766, (1972).
- Stephen M. Curry, How Children Swing, AJP 44, 924-926, (1976).
- William B. Case, Mark A. Swanson, The Pumping of a Swing from the Seated Position, AJP 58, 463-467, (1990).
- Fabrizio Pinto, Parametric Resonance: An Introductory Experiment, TPT 31, 336-346 (1993).
- William B. Case, The pumping of a swing from the standing position, AJP 64, 215-220 (1996).
- D3-12: SWING MODEL
- None.
- D3-21: INVERSE SPRINKLER - GLASS MODEL
- Richard P. Feynman, Surely You're Joking, Mr. Feynman, pages 51-53.
- Ernst Mach, The Science of Mechanics, pp. 388-390 (The Open Court Publishing Co., 1893, 1902, 1919, 1942 (LC 60-10179).
- Paul Kirkpatrick, A Neglected Lesson from the Cartesian Diver, AJP 10, 160 (1942).
- Henry S. Belson, "Empty" Hero's Engine, AJP 24, 413-414 (1956).
- Julius Sumner Miller, Physics in a Toy Boat, AJP 26, 199 (1958).
- R. Stuart Mackay, Boat Driven by Thermal Oscillations, AJP 26, 583-584 (1958).
- I. Finnie and R. L. Curl, Physics in a Toy Boat, AJP 31, 289-293 (1963).
- J. A. Weyland and J. D. Patterson, Rotating water sprinkler, AJP 44, 1106-1109 (1976).
- B. A. McInnes, Comment on "Rotating Water Sprinkler" by Weyland and Patterson, AJP 46(11), 1194, (1978).
- A. Theodore Forrester, Inverse sprinklers: A lesson in the use of a conservation principle, AJP 54, 798-799 (1986).
- Alton K. Schultz, Letter: Comment on the inverse sprinkler problem, AJP 55, 488 (1987).
- Leonardo Hsu, Inverse Sprinklers: Two Simple Experiments and the Resolution of the Feynman-Forrester Conflict, AJP 56, 307-308, (1988).
- Richard E. Berg and Michael R. Collier, The Feynman inverse sprinkler problem: A demonstration and quantitative analysis, AJP 57, 654-657, (1989).
- John Archibald Wheeler, The Young Feynman, Physics Today, February 1989, pp. 24-28.
- Mark Kuzyk, Letter, Physics Today, November 1989, pp 129-130.
- Richard E. Berg and Michael R. Collier, Letter: New Device Lets You Un-Water Your Lawn, Physics Today, July 1990, p. 13.
- E. Rune Lindgren, The transport of momentum theorem, AJP 58, 352-357, (1990).
- Berg, Collier, and Ferrell, The Feynman inverse sprinkler problem: A detailed kinematic study, AJP 59(4), 349-355, (1991).
- Alan Mironer, The Feynman Sprinkler (letter), AJP 60, 12, (1992).
- D3-22: INVERSE SPRINKLER - METAL MODEL
- See D3-21.
- D3-31: AIR TABLE - TETHERBALL
- None.
- D3-32: KEYWHIP
- Martin Gardner, Tricks of the Trade, TPT 28, 390 (1990).
- A. R. Marlowe, A surprising mechanics demonstration, AJP 59, 951-952 (1991).
- R. E. J. Sears, Comment on "A surprising mechanics demonstration," by A. R. Marlowe [AJP 59, 951-952 (1991)], AJP 63, 854-855 (1995).
- David J. Griffiths and Tyler A. Abbott, Comment on "A surprising mechanics demonstration," by A. R. Marlowe [AJP 59, 951-952 (1991)], AJP 60, 951-953 (1992).
- D3-41: AIR TABLE - COLLISION OF PUCK AND STICK
- None.
- D3-42: AIR TABLE - RECTANGULAR PUCK AND COLLISIONS
- None.
D4: GYROSCOPES
- D4-01: GYROSCOPE WITH COUNTERWEIGHT
- Paul Rood, "Action Equals Reaction" -Even in Gyroscopes, AJP 13, 175-177(1945).
- Instruction Manual and Experiment Guide, Model ME-8960, Pasco Scientific, Rosevill, CA. (1994).
- D4-02: BICYCLE WHEEL GYROSCOPE WITH COUNTERWEIGHT
- J. R. Prescott, Demonstration Gyroscope, AJP 31, 393-394, (1963).
- D4-03: BICYCLE WHEEL GYROSCOPE ON PIVOT
- H.W. Dosso and R. H. Vidal, Simple Apparatus for Angular Motion Demonstrations, AJP 30(7), 528-530, (1962).
- W.C. Connolly and R.C. Connolly. Angular Momentum Demonstration, AJP 41(1), 131-132, (1973).
- Gerard Lietz, Tony Behof, and Robert Horton, Doing Physics - Physics activities for groups: A DOUBLE WHEEL, TPT 22, 324-325 (1984).
- D4-04: BICYCLE WHEEL WITH GYROSCOPE ON ROPE
- None.
- D4-05: GYROSCOPE WITH GYMBAL RINGS
- Mason E. Hufford, A Device for Demonstrating Constancy of Angular Momentum, AJP 13, 417-418, (1945).
- William B. Case and Michael A. Shay, On the Interesting Behavior of a Gimbal-mounted Gyroscope, AJP 60, 503-506, (1992).
- D4-06: ELECTRIC GYROSCOPE
- Novel Experiments in Physics, Motor Driven Gyroscope, MIT.
- Herbert F. Newhall, Gyroscope, AJP 28, 78-79, (1960).
- Instructions Booklet, MITAC- "The Classroom Gyroscope", Central Scientific Co., Chicago, Ill.
- D4-07: SUITCASE GYROSCOPE
- S. Schultz, Thought Stimulator on Angular Momentum, AJP 34, 1201, (1966).
- D4-08: PRECESSION AND NUTATION OF GYROSCOPE - MODEL
- Francis W. Sears, A Three-Dimensional Diagram of Gyroscopic Precession, AJP 7, 342-344. (1939).
- H. L. Armstrong, On the Precession of Nutation of Gyroscopes, AJP 35, 883-885, (1967).
- A. E. Benfield, Note On Precession, AJP 26, 396-397, (1958).
- G. David Scott, Precession of A Gyro and Model of a Gyro-Compass, AJP 25, 80-82, (1957).
- Howard E. Pettersen, Another Note on Precession, AJP 27(6), 429-430, (1959).
- Ernest F. Barker, Elementary Analysis of the Gyroscope, AJP 28, 808-810, (1960).
- D4-09: ZERO-TORQUE GYROSCOPE
- Lecture Demonstrations Diagram.
- D4-10: AIR GYROSCOPE
- Robert G. Marcley, Apparatus Drawings Project - Air Suspension Gyroscope, AJP 28, 150-155, (1960).
- Instructions Manual for Demonstration of Air Gyroscope, The Ealing Corp., Cambridge, Mass. (1966).
- James Reynolds and Stanton Hillier, A Demonstration on the Proportional Relationship Between Frictional Torque and Angular Velocity, The Ealing Review, Nov/Dec (1977).
- J. E. Szeszol and S. Luzader, Angular Momentum Air Top, TPT 25, 172-175, (1987).
- O. L. de Lange and J. Pierrus, Measurement of inertial and noninertial properties of an air suspension gyroscope, AJP 61, 974-981 (1993).
- D4-21: SHIP STABILIZER
- Lecture Demonstation Analysis Sheet.
- D4-22: MONORAIL CAR
- None.
- D4-23: GYROCOMPASS
- None.
- D4-24: GYROCOMPASS - MODEL
- Herbert Goldstein, Gyrocompass, Classical Mechanics, 156-158, 183, (1950).
- D4-25: GYROCOMPASS - TOY
- Lecture Demonstration Instructions.
- R. W. Christy, Mechanical Top with Magnetized Axle, AJP 24, 523-524 (1956).
- D4-26: GYROCOMPASS MODEL WITH ROTATING STAGE
- None.
D5: ROTATIONAL ESOTERICA
- D5-01: TIPPE TOP
- Bob, McCann, Physics Lecture-Demonstration Facility, The Tippe Top (notes of explanation and references).
- J. A. Jacobs, Note on the Behavior of a Certain Symmetrical Top, AJP 20, 517-518, (1952).
- C. M. Braams, On the Influence of Friction on the Motion of a Top, Physica 18(no. 8-9), 503-514, Aug/Sept (1952).
- N. M. Hugenholtz, On Tops Rising by Friction, Physica 18(no. 8-9), 515-527, Aug/Sept (1952).
- William A. Pliskin, The Tippe Top (Topsy-Turvy Top), AJP 22, 28-32 (1954).
- C. M. Braams, The Tippe Top, AJP 22(8), 568, (1954).
- W. A. Pliskin, The Tippe Top (Topsy-Turvy Top), AJP 22, 28-32, (1954).
- Angelo R. Del Campo, Tippe Top (Topsy-Turnee Top) Continued, AJP 23, 544-545, (1955).
- Ira M. Freeman, The Tippe Top Again, AJP 24, 178, (1956).
- John B. Hart, Angular Momentum & Tippe Top, AJP 27, 189, (1959).
- Frank F. Johnson, The Tippy Top, AJP 28, 406-407, (1960).
- George D. Freier, The Tippy-Top, TPT 5, 36-38, (1967).
- James C. Lauffenburger, A Large-Scale Demonstration of the Tippe-Top,, AJP 40, 1338 (1972).
- Richard J. Cohen, The Tippe Top Revisited, AJP 45(1), 12-17, (1977).
- Kenneth W. Ford, Why Does a Finger Ring Flip?, TPT 16, 322, (1978).
- Paul E. Klingsporn, Rocking Oscillatory Motion and A Technique for Its Measurement, AJP 56, 796-801, (1988).
- Van Parunak, The Tippe Top, notes presented in a course, The Acapulco Effect and Other Paradoxes," taught by John A. Wheeler at Princeton.
- D. Van Ostenburg and C. Kikuchi, Some Analogies of the Tippe Top to Electrons and Nuclei, AJP 21, 574 (1953).
- Lecture Demonstrations Information Sheet.
- Two miscellaneous lists of literature, containing some duplication.
- D5-02: FOOTBALL
- John Satterly, The Breakfast Egg, AJP 26, 341, (1958).
- Questions Students Ask, Spinning Footballs and Class Rings, TPT, Sept., 341, (1958).
- D5-03: FOOTBALL ROTATING ASYMETRICALLY - MODEL
- None.
- D5-04: SPINNING BOOK
- R. D. Edge, Moment Of Inertia, TPT 17, 599-600, (1979).
- Jearl Walker, Why Does A Spinning Book Wobble?, TPT 19, 57, (1981).
- A. Amengual, On a simple experiment on the free rotation of a ruler and other laminas, AJP 64, 82-87 (1996).
- Lecture Demonstration Instructions Sheet.
- D5-05: CELTS
- John Satterly, Rocking Experiment with Two Degrees of Freedom, AJP 21, 267-273 (1953).
- John Satterly, Three Interesting Instances of Rocking, AJP 23, 14-26 (1955).
- John Satterly, Vibrational Dynamics With Lenses, Mirrors, and Prisms, AJP 23, 562-581, (1955).
- John Satterly, Induced Rocking, AJP 26, 625-627 (1958).
- H. Crabtree, An Elementary Treatment of the Spinning Tops and Gyroscopic Motion, Chelsea, NY., (1967).
- Jearl Walker, Rattlebacks and Tippe Tops; Roundabout: The Physics Of Rotation in the Everyday World, 33-38.
- Ira B. Freeman, What Is Trevelyan's Rocker?, TPT 12, 382, (1974).
- Allan J. Boardman, The Mysterious Celt; Fine Woodworking No. 53, 68-69, (July/Aug 1985).
- Robert Walgate, Tops That Like to Spin One Way, Nature Vol 323, 204, (18 Sept. 1986).
- Tad McGeer and Leigh Hunt Palmer, Wobbling, toppling, and forces of contact, AJP 57, 1089-1098 (1989).
- H. Richard Crane, How Things Work: The Rattleback Revisited, TPT 29, 278-279 (1991).
- D5-06: FIDDLESTICK
- None.
- D5-07: STABLE AND UNSTABLE PRINCIPLE AXES
- Pages 399-402 from Section 12.11 The Stability of Rigid-Body Rotations of an unidentified intermediate mechanics book.
- D5-11: CORIOLIS EFFECT - BALL ON ROTATING PLATFORM
- Albert Einstein, Essays in Science: English translation of "Mein Weltbild," Philosophical Library, New York, THE CAUSE OF THE FORMATION OF MEANDERS IN THE COURSES OF RIVERS AND OF THE SO-CALLED BEER'S LAW, pp. 85-91.
- James E. McDonald, The Coriolis Effect, Scientific American Magazine (issue??).
- Paul Kirkpatrick, Effects of Form and Rotation of the Earth Upon Ranges of Projectiles, AJP 11, 303-311, (1943).
- Ralph Hoyt Bacon, Motion Relative to the Surface of the Rotating Earth, AJP 19, 52-56, (1951).
- Marshall J. Walker, Graphic Aids for Teaching Coriolis Force, AJP 26, 392-395, (1958).
- Richard M. Sutton, One Good Tern Deserves Another, AJP 26(9), 639, (1958).
- Arthur G. Rouse, Centrifugal and Coriolis Forces As Observed in a Rotating System, AJP 27(6), 429, (1959).
- Harry F. Meiners, Rotating Coordinate System, AJP 34(1), 17-18, (1966).
- John M. Goodman and David S. Chandler, A Rotating Coordinate Frame Visualizer, AJP 39, 1129-1133 (1971).
- G. Preston Burns, Deflection of Projectiles due to Rotation of the Earth, AJP 39, 1329-1332 (1971).
- Eric R. Muller, A Note on: "Deflection of Projectiles due to Rotation of the Earth, AJP 40, 1045-1047 (1972).
- G. Preston Burns, NOTES AND DISCUSSION: Effect of Rotation of the Earth on Range of a Projectile, AJP 40, 1536-1538 (1972).
- Owen E. Thompson, On the Demonstration and Interpretation of the Coriolis Effect, AJP 41, 247-255, (1973).
- Thomas Mitchell, Problem Solving by Experiment, TPT 13, 423, (1975).
- Walter Thumm, The Case of the Coriolis Force, TPT 14, 48-49, (1976).
- Hastings A. Smith, Coriolis phenomenon in nuclei and planets: Rotation alignment, AJP 48, 577-578 (1980).
- Fred T. Pregger, Feeling the Coriolis Force, TPT 18, 458-460, (1980).
- J. N. Boyd and P. N. Raychowdhury, Coriolis acceleration without vectors, AJP 49, 498-499 (1981).
- Jacob Neuberger, Coriolis force revisited, AJP 49, 782-784 (1981).
- Thomas T. Arny, Coriolis force simulation, AJP 50, 381 (1982).
- P. Rochon and N. Gauthier, Simple Problem Involving Coriolis Effect, TPT 21, 36-37, (1983).
- Robert Bauman, Coriolis Paradox, TPT 21, 461, (1983).
- D. R. Stirling, The Eastward Deflection of a Falling Object, AJP 51, 236 (1983).
- J. M. Potgieter, An Exact Solution for the Horizontal Deflection of a Falling Object, AJP 51, 257-258, (1983).
- Harold A. Daw, The New Mexico State University motion room, AJP 58, 668-672 (1990).
- D5-12: CORIOLIS FORCE - WATER JET
- Alexander Wundheiler, A Picturable Derivation of the Coriolis Acceleration, AJP 13, 54, (1945).
- T. Walley Williams III, Coriolis Force Apparatus, TPT 3, 171-172, (1965).
- Douglas J. Knapp, The Case of the Coriolis Force, TPT 14, 318, (1976).
- D5-13: FOUCAULT PENDULUM - MODEL
- About Foucault Pendulums and How They Prove the Earth Rotates, A Scriptographic Study Unit, published by the Smithsonian Institution, Washington, D. C.
- Anthony P. French, The Foucault Pendulum, TPT 16, 61-62, (1978).
- Reynhardt, van der Walt, and Soskolsky, A Modified Foucault Pendulum for Corridor Exhibit, AJP 54, 759-761, (1986).
- F. Lestingi(Section Editor, Projection Pointers), A Projection Foucault Pendulum, TPT 12, 311, (1974).
- Don W. Miller and G. Wayne Caudill, Driving Mechanism for a Foucault Pendulum, AJP 34, 615-616, (1966).
- Haym Kruglak, Larry Oppliger, Rene Pittet, and Stanley Steele, A Short Foucault Pendulum for a Hallway Exhibit, AJP 46(4), 438-440, (1978).
- Haym Kruglak, Rene Pittet, and Stanley Steele, A Short, Movable Foucault Pendulum, Sky and Telescope, 330-332, (Oct. 1980).
- J. O. Mattila, The Focault Pendulum as a Teaching Aid, Phys. Ed. 26, (1991).
- D5-14: FOUCAULT PENDULUM - 6FT
- R. Stuart Mackay, Sustained Foucault Pendulums, AJP 21, 260-266 (1953).
- Geoffrey I. Opat, The precession of a Foucault pendulum viewed as a beat phenomenon of a conical pendulum subject to a Coriolis force, AJP 59, 822-823 (1991).
- H. Richard Crane, Foucault pendulum "wall clock," AJP 63, 33-39 (1995).
- John E. Horne, Apparatus for Teaching Physics: Classroom Foucault Pendulum, TPT 34, 238-239 (1996).
-
-
- D5-15: CYCLONE AND ANTICYCLONE MODEL
- Transparency showing cyclone/anticyclone rotations in northern and southern hemisphere, to accompany this demonstration.
- Marvin J. Pryor, Cyclones, Anticyclones, On A Record Player Turntable, TPT 10, 532, (1972).
- Lecture Demonstration: Complete instructions for construction of this model.
- Merwin Sibulkin, A note on the bathtub vortex, Journal of Fluid Mechanics 14, 21-24 (1962).
- Ascher H. Shapiro, Bath-Tub Vortex, NATURE, vol. 196, 1080-1081 (1962).
- E. N. da C. Andrade, Whirlpools, vortices and bath tubs, New Scientist 17, No. 357, 302-304 (1963).
- D. L. Kelly, B. W. Martin, and E. S. Taylor, A further note on the bathtub vortex, Journal of Fluid Mechanics 19, 539-542 (1964).
- Robert Lanni, Letter: Earth's Rotation - One More, TPT 30, 196 (1992).
- Howard C. Hayden, Letter: Earth's Rotation...Yet More, TPT 30, 197 (1992).
- John C. Salsieder, Exposing the Bathtub Coriolis Myth, TPT 32, 107 (1994).
- John W. Hanneken, Letter: Coriolis Myths and Draining Bathtubs, AJP 62, 1063 (1994).
- Richard R. Hake, Letter: More on Coriolis Myths and Draining Bathtubs, AJP 62, 1063 (1994).
- Charles Robertson, Letter: Still More on Coriolis Myths and Draining Bathtubs - Films and Video Tapes, AJP 62, 1063 (1994).
- D5-21: BALL ROLLING ON ROTATING DISC
- Harold J. Born, Demonstration of a Simple Mechanics Problem, AJP 41, 707-708, (1973).
- Meiners, Mehanics, Chapt. 13, 314-315.
- Klaus Weltner, Stable Circular Orbits of Freely Moving Balls on Rotating Discs, AJP 47, 984-986, (1979).
- Robert H. Romer, Motion of a sphere on a Tilted Rurntable, AJP 49, 985-986, (1981).
- Joel Gersten, Harry Soodak, and Martin S. Tiersten, Ball Moving on Stationary or Rotating Horizontal Surface, AJP 60, 43-47, (1992).
- Artom V. Sokirko, Alexandr A. Belopolskii, Andrei V. Matytsyn, and Dmitri A. Kossakowski, Behavior of a ball on the surface of a rotating disk, AJP 62, 151-156 (1994).
- Robert Erlich and Jaroslaw Tuszynski, Ball on rotating turntable: Comparison of theory and experiment, AJP 63, 351-359 (1995).
- D5-22: ROTATING PENDULUM
- Keith R. Symon, Mechanics, Addison Wesley Publishers Inc., 387-388, (1960).
- D5-23: ROTATING BEAD ON LOOP
- Keith R. Symon, Mechanics, Addison-Wesley Pub. Inc., 387-388, (1960).
- Said Shakerin, Apparatus for Rotational Motion, TPT 33, 173-174 (1995).
- D5-24: ROTATING PENDULA - LENGTH VS HEIGHT
- Richard E. Berg, Lecture Demonstration Analysis Sheet.
- Lee Larson and Roderick Grant, The Airplane Experiment, TPT 29, 564-565 (1991).