Trinh @ Bath

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projects_divergentphysics [2020/04/10 13:08]
trinh 		projects_divergentphysics [2020/04/10 13:09]
trinh
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 E_n = \left(n + \frac{1}{2}\right) + \lambda E_{n1} + \lambda^2 E_{n2} + \ldots = \sum_{j=0}^\infty \lambda^n E_{nj}. E_n = \left(n + \frac{1}{2}\right) + \lambda E_{n1} + \lambda^2 E_{n2} + \ldots = \sum_{j=0}^\infty \lambda^n E_{nj}.
 $$ $$
-But doing so, you quickly realise that the series is divergent. How do you assign meaning to a divergent series? Perhaps put more sensationally: how could you sum the divergent series to obtain the actual answer of the energy? This problem lies at the heart of a lot of the puzzling issues about quantum theories---mainly that many of the quantities that you try to write down are divergent, and it is not clear how to extract meaning from them. +But doing so, you quickly realise that the series is divergent and the terms in the series get very large very rapidly. How do you assign meaning to a divergent series? Perhaps put more sensationally: how could you sum the divergent series to obtain the actual answer of the energy? This problem lies at the heart of a lot of the puzzling issues about quantum theories---mainly that many of the quantities that you try to write down are divergent, and it is not clear how to extract meaning from them. 
  
 This project will be about learning about some of these techniques for studying divergent series.  This project will be about learning about some of these techniques for studying divergent series. 
Last modified: 2020/04/10 13:11