See below gif image taken from here.

enter image description here

Or see this Youtube video about 30 sec in.

  1. Is this a real effect?

  2. Why does it seem to turn periodically?

  3. Can it be explained by classical mechanics alone?

  4. Is there a simple equation that models this behaviour?


1 Answer 1


It's a classical mechanics effect for sure although a really interesting one. Following links on "Dzhanibekov effect" one gets at Marsden and Ratiu's "Introduction to Mechanics and Symmetry" Chapter 15 Section 15.9 "Rigid Body Stability" treating this with use of the Casimir functions.

From remark 1: A rigid body tossed about its middle axis will undergo an interesting half twist when the opposite saddle point is reached.

Here is another and more profound example under weightless conditions.


This seems to be a home experiment where a guy throws the spinning object upwards.


And this seems to be a computer simulation.


There is a related unstable orbit effect which you can try out easily yourself with a tennis racket. A treatment due to Ashbauch Chicone and Cushman is here:

Mark S. Ashbaugh, Carmen C. Chicone and Richard H. Cushman, The Twisting Tennis Racket, Journal of Dynamics and Differential Equations, Volume 3, Number 1, 67-85 (1991). (One time found at http://math.ucalgary.ca/files/publications/cushman/tennis.pdf which is no longer a working link.)


  • 18
    $\begingroup$ This seems more like a list of references than an answer. It would be nice to have the important points explained here. $\endgroup$
    – DanielSank
    Commented Jul 19, 2015 at 22:51

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.