Abstract
Newton’s Cradle is a series of bifilar pendulums used in physics classrooms to demonstrate the rôle of the principles of conservation of momentum and kinetic energy in elastic collisions. The paper reviews the way in which textbooks use Newton’s Cradle and points out the unsatisfactory nature of these treatments in almost all cases. The literature which attempts to explain how the apparatus works is discussed and alternative strategies which make it possible to teach about the nature of models in science as well as to teach physics through use of the apparatus are suggested.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
R. Adair (1969) Concepts in Physics Academic Press New York 108–114
Allchin, D.: 1999, ‘How School Science Lies’, Paper presented at the 5th Annual Conference of the International History, Philosophy and Science Teaching Group, Como, Italy.
D. Allchin (2001) ArticleTitle‘Missing Evidence: A Study in Black and White’ Journal of College Science Teaching 31 240–245
D. Auerbach (1994) ArticleTitle‘Colliding Rods: Dynamics and Relevance to Colliding Balls’ American Journal of Physics 62 IssueID6 522–525 Occurrence Handle10.1119/1.17511
B.F. Bayman (1976) ArticleTitle‘Model of the Behavior of Solid Objects During Collisions’ American Journal of Physics 44 IssueID7 671–676 Occurrence Handle10.1119/1.10353
A. Beiser (1983) Modern Technical Physics EditionNumber4 Benjamin/Cummings Menlo Park, CA 150–151
D.J. Bunn (1990) Physics for the Modern World Jacaranda Milton, Qld 199–200
S. Chapman (1960) ArticleTitle‘Misconception Concerning the Dynamics of the Impact Ball Apparatus’ American Journal of Physics 28 IssueID8 705–711 Occurrence Handle10.1119/1.1935959
R. Erlich (1996) ArticleTitle‘Experiments with “Newton’s Cradle”’ The Physics Teacher 34 IssueID3 181–183
H. Erlichson (2001) ArticleTitle‘A Proposition Well Known to Geometers’ The Physics Teacher 39 IssueID3 152–153 Occurrence Handle10.1119/1.1364059
L. Flansburg K. Hudnut (1979) ArticleTitle‘Dynamic Solutions for Linear Elastic Collisions’ American Journal of Physics 47 911–914 Occurrence Handle10.1119/1.11636
P.J. Fleming (1978) Physics Addison-Wesley Reading MA 166–167
C.F. Gauld (1997) ArticleTitle‘It must be True – it’s in the Textbook!’ Australian Science Teachers’ Journal 43 IssueID2 21–26
C.F. Gauld (1998a) ArticleTitle‘Solutions to the Problem of Impact in the 17th and 18th Centuries and Teaching Newton’s Third Law Today’ Science & Education 7 IssueID1 49–67 Occurrence Handle10.1023/A:1008662416828
C.F. Gauld (1998b) ArticleTitle‘Colliding Pendulums, Conservation of Momentum and Newton’s Third Law’ Australian Science Teachers’ Journal 44 IssueID3 37–38
C.F. Gauld (1999) ArticleTitle‘Using Colliding Pendulums to Teach Newton’s Third Law’ The Physics Teacher 37 IssueID2 42–45 Occurrence Handle10.1119/1.880166
J.D. Gavenda J.R. Edington (1997) ArticleTitle‘Newton’s Cradle and Scientific Explanation’ The Physics Teacher 35 IssueID7 411–417
F. Herrmann P. Schmälzle (1981) ArticleTitle‘Simple Explanation of a Well-known Collision Experiment’ American Journal of Physics 49 IssueID8 761–764 Occurrence Handle10.1119/1.12407
F. Herrmann P. Schmälzle (1984) ArticleTitle‘Response to Comments on “Simple Explanation of a Well-known Collision Experiment”’ American Journal of Physics 52 IssueID1 84 Occurrence Handle10.1119/1.13829
F. Herrmann M. Seitz (1982) ArticleTitle‘How Does the Ball-chain Work?’ American Journal of Physics 50 977–981 Occurrence Handle10.1119/1.12936
P. Hewitt (1974) Conceptual Physics EditionNumber2 Little Brown Boston 75
H.B.D. Kettlewell (1959) ArticleTitle‘Darwin’s Missing Evidence’ Scientific American 200 IssueID3 48–53 Occurrence Handle10.1038/scientificamerican0359-48
Kilpatrick, L. & Wheeler, G.: 1998, Physics: A World View, 3rd edn., Saunders, Fort Worth, pp. 132
J.V. Kline (1960) ArticleTitle‘The Case of the Counting Balls’ American Journal of Physics 28 102–103 Occurrence Handle10.1119/1.1935067
B. Leroy (1985) ArticleTitle‘Collision between Two Balls Accompanied by Deformation: A Qualitative Approach to Hertz’s Theory’ American Journal of Physics 53 346–349 Occurrence Handle10.1119/1.14164
D. Long (1988) The Physics Around You Wadsworth Belmont, CA 91
M. Matthews (2000) Time for Science Education Kluwer/Plenum New York
Newton, I.: 1729/1960, The Mathematical Principles of Natural Philosophy, (trans. A. Motte, 1729; revised F. Cajori, 1934), University of California Press, Berkeley, CA.
H.C. Ohanian (1994) Principles of Physics Norton New York 212
J. Orear (1979) Physics Macmillan New York 122–123
P.J. Ouseph (1980) Technical Physics Van Nostrand New York 75
J. Pasachoff M. Kutner (1981) Invitation to Physics Norton New York 80
J. Piquette M.-S. Wu (1984) ArticleTitle‘Comments on “Simple Explanation of a Well-Known Collision Experiment”’ American Journal of Physics 52 IssueID1 83 Occurrence Handle10.1119/1.13828
R. Romer (1976) Energy: An Introduction to Physics W.H. Freeman San Francisco 104
R.A. Serway J.S. Faughn (1995) College Physics Harcourt Fort Worth 164–165
‘sGravesande, W.J.: 1721, Mathematical Elements of Natural Philosophy, (trans. J.T. Desaguliers), Senex & Taylor, London, Readex Microprint, New York, 1969.
B. Zealey C. Wiecek (1994) Physics: The Forces of Life Oxford University Press Melbourne 127
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Gauld, C.F. Newton’s Cradle in Physics Education. Sci Educ 15, 597–617 (2006). https://doi.org/10.1007/s11191-005-4785-3
Issue Date:
DOI: https://doi.org/10.1007/s11191-005-4785-3