In textbook descriptions of Newton’s cradle, it is generally claimed that displacing one ball will result in a collision that leads to another ball being ejected from the line, with all others remaining motionless. Hermann and Schmälzle, Hinch and Saint-Jean, and others have shown that a realistic description is more subtle. We present a simulation of Newton’s cradle that reproduces the break-up of the line of balls at the first collision, the eventual movement of all the balls in phase, and is in good agreement with our experimentally obtained data. The first effect is due to the finite elastic response of the balls, and the second is a result of viscoelastic dissipation in the impacts. We also analyze a dissipation-free ideal Newton’s cradle which displays complex dynamics.

Topics
Viscoelasticity, Educational aids, Public policy and governance
1.
F. Bueche, Principles of Physics (McGraw–Hill, New York, 1986).
2.
M. Sternheim and J. Kane, General Physics, 2nd ed. (Wiley, New York, 1991).
3.
H. Ohanian, Principles of Physics (Norton, New York, 1994).
4.
E. Mazur, Peer Instruction: A User’s Manual (Prentice–Hall, N.J., 1997).
5.
A. B. Western and W. P. Crummett, University Physics, Models and Applications (Wm. C. Brown, Dubuque, IA, 1994).
6.
J. Wilson and A. Buffa, College Physics, 4th ed. (Prentice–Hall, Upper Saddle River, N.J., 2000).
7.
E. J.
Hinch
and
S.
Saint-Jean
, “
The fragmentation of a line of balls by an impact
,”
Proc. R. Soc. London, Ser. A
455
,
3201
3220
(
1999
).
Google Scholar
Crossref
Search ADS
 
8.
F.
Hermann
and
P.
Schmälzle
, “
Simple explanation of a well-known collision experiment
,”
Am. J. Phys.
49
(
8
),
761
764
(
1981
).
Google Scholar
Crossref
Search ADS
 
9.
F.
Hermann
and
M.
Seitz
, “
How does the ball-chain work?
,”
Am. J. Phys.
50
(
11
),
977
981
(
1982
).
Google Scholar
Crossref
Search ADS
 
10.
M.
Reinsch
, “
Dispersion-free linear chains
,”
Am. J. Phys.
62
(
3
),
271
278
(
1994
).
Google Scholar
Crossref
Search ADS
 
11.
V.
Ceanga
and
Y.
Hrmuzlu
, “
A new look at an old problem: Newton’s cradle
,”
J. App. Math.
68
,
575
583
(
2001
).
Google Scholar
 
12.
H. Gould and J. Tobochnik, An Introduction to Computer Simulation Methods: Applications to Physical Systems, 2nd ed. (Pearson Education, 1996).
13.
L. Landau and E. Lifshitz, Theory of Elasticity, 2nd ed. (Pergamon, New York, 1970).
14.
D.
Donnelly
and
J.
Diamond
, “
Slow collisions in the ballistic pendulum: A computational study
,”
Am. J. Phys.
71
,
535
540
(
2003
).
Google Scholar
Crossref
Search ADS
 
15.
An animation of the simulation can be downloaded from 〈http://www.maths.tcd.ie/garyd/cradlevideo.html〉.
16.
D. E. Wolf, “Modelling and computer simulation of granular media,” in Computational Physics, edited by K. H. Hoffmann and M. Schreiber (Springer-Verlag, Berlin, 1996), pp. 64–95.
This content is only available via PDF.
© 2004 American Association of Physics Teachers.
2004
American Association of Physics Teachers
AAPT members receive access to the American Journal of Physics and The Physics Teacher as a member benefit. To learn more about this member benefit and becoming an AAPT member, visit the Joining AAPT page.