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=What is Feynman's Technique?=
 
  
Feynman's Technique of integration utilizes parametrization and a mix of other different mathematical properties in order to integrate an integral that is can't be integrated through normal processes like u-substitution or integration by parts. It primarily focuses on setting a function equal to an integral, and then differentiating the function to get an integral that is easier to work with. A simple example would be an integral such as:
 
<center><math> \int_{0}^{\infty}(e^{-x^2}*cos(2x)) dx</math></center>
 
As we can see, there isn't any particular place that we can use u-substitution or integration by parts to produce a solution easily, but Feynman shows us how we can parameterize the variables for the cosine factor of the integrand to extract an x, making the left portion of the integrand <math>x*e^{-x^2}</math>, which is much easier to deal with than just <math>e^{-x^2}</math>
 
 
[[ Walther MA271 Fall2020 topic14 | Back to Feynman Integrals]]
 

Latest revision as of 19:35, 30 November 2020

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