Why Use Trigonometric Substitutions in Integration?

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Trigonometric substitutions in integration are useful because they simplify integrands involving square roots, such as sqrt(a^2 - x^2), by relating them to circular functions. The key connection lies in the identity sin²(t) + cos²(t) = 1, which helps transform the integrand into a more manageable form. By substituting x with a = cos(t), the integral can be simplified significantly. This relationship between the integrand and circular geometry illustrates why trigonometric functions are appropriate for these types of problems. Understanding this connection makes the use of trigonometric substitutions more tangible and intuitive.
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I can't see the logic in assuming (for example) that a function containing sqrt (a^2 - x^2) in the integrand would lead you to substitute x with a trig reference. Why a trig reference? What connection does the integrand, trig-less function have to trigonometry? To me, it seems about as rational as replacing the 'a' with pi, or e, or a sausage!
How can I make this tangible?
Are there any online illustrations of this?
 
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Let him substitute x=a cos(t) and see for himself. Remember sin^2(t)+cos^2(t)=1. The squares in this equation are the link to square roots.
It's pretty self-explanatory once you've actually tried it out.
 
I know what he means.

Tell him that integrand is related to a circle which is related to a trig function (and related to pi)
 

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