Many have wondered how mathematics, which appears to be the result of both human creativity and human discovery, can possibly exhibit the degree of success and seemingly-universal applicability to quantifying the physical world as exemplified by the laws of physics. In this essay, I claim that much of the utility of mathematics arises from our choice of description of the physical world coupled with our desire to quantify it. This will be demonstrated in a practical sense by considering one of the most fundamental concepts of mathematics: additivity. This example will be used to show how many physical laws can be derived as constraint equations enforcing relevant symmetries in a sense that is far more fundamental than commonly appreciated.
CITATION STYLE
Knuth, K. H. (2016). The Deeper Roles of Mathematics in Physical Laws. In Frontiers Collection (Vol. Part F917, pp. 77–90). Springer VS. https://doi.org/10.1007/978-3-319-27495-9_7
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