P2_3 Tennis Ball Tunnelling

Thomas Morris; Katie Raymer; Benjamin Jordan; Oliver Youle

P2_3 Tennis Ball Tunnelling

Authors

Thomas Morris
Katie Raymer
Benjamin Jordan
Oliver Youle

Abstract

This paper aims to calculate the probability of a tennis ball quantum tunnelling through a tennis racket. This is done by treating the tennis ball as a single particle, and making the potential barrier equal to the energy required to break the strings classically. The probability of tunnelling through a racket is found to be 3.6exp(-2.9x10^31). This very low probability matched with what would be expected. The paper also briefly discusses the problem of decoherence when applying quantum mechanics to macroscopic systems.

Author Biographies

Thomas Morris

Katie Raymer

Benjamin Jordan

Oliver Youle

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Published

27-11-2013

How to Cite

Morris, T., Raymer, K., Jordan, B., & Youle, O. (2013). P2_3 Tennis Ball Tunnelling. Physics Special Topics, 12(1). Retrieved from https://journals.le.ac.uk/index.php/pst/article/view/2150

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Vol. 12 No. 1 (2013): Physics Special Topics

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P2_3 Tennis Ball Tunnelling

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Author Biographies

Thomas Morris

Katie Raymer

Benjamin Jordan

Oliver Youle

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