Code Number: 3A70.40
Demo Title: Inverted Coupled Pendulum
Condition: Excellent
Principle: Potential to Kinetic Energy, Simple Harmonic Motion
Area of Study: Oscillations & Acoustics
Equipment:
Inverted Pendulum.
Procedure:
Use the special table clamp and get the pendulum so it stands straight up and down. Gently start one of the pendulums in motion and within a short time the energy should be transferred to the other pendulum. Increase coupling, may be done connecting the two pendulums together with a rubber band. The closer the rubber band to the pendulum weights the greater the amount of coupling.
References:
- Michael Thees, Sebastian Becker, Eva Rexigel, Nils Cullman, and Jochen Kuhn, "Coupled Pendulums on a Clothesline", TPT, Vol. 56, #6, Sept. 2018, p. 404.
- Heather Stephens, Austin Tam, and Michael Moloney, "Decay Times and Quality Factors for a Resonance Apparatus", TPT, Vol. 49, #7, Oct. 2011, p. 421.
- J. P. Sharpe and N. Sungar, "Supercritical Bifurcation in a Simple Mechanical System: An Undergraduate Experiment", AJP, Vol. 78, #5, May 2010, p. 520.
- Ross L. Spencer and Richard D. Robertson, "Mode Detuning in Systems of Weakly Coupled Oscillators", AJP, Vol. 69, #11, Nov. 2001, p. 1191.
- M. E. Oakes and Dean Creech, "Exposing Normal Modes", AJP, Vol. 45, #9, Sept. 1977, p. 882.
- Freier and Anderson, "Sa-1", A Demonstration Handbook For Physics.
- Freier and Anderson, "Mx-6", A Demonstration Handbook For Physics.
- David Kutliroff, "71, Resonance Demonstrations with Pendulums", 101 Classroom Demonstrations and Experiment For Teaching Physics, p. 156.
- Jearl Walker, "1.119, Coupled Pendulums", The Flying Circus of Physics Ed. 2, p. 58.
- Julien Clinton Sprott, "1.18, Coupled Pendulums", Physics Demonstrations, ISBN 0-299-21580-6, p. 52.