is the derivative with respect to y of an anti-derivative of g.|
Home | 18.013A | Chapter 19 |
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There is one other tool that can sometimes be used to evaluate anti-derivatives that works when certain convergence conditions hold.
Suppose we know the anti-derivative of g(x, y) where g is some differentiable
function of the parameter y, as well as a function of x. Then we can deduce
that an anti-derivative of
is the derivative with respect to y of an anti-derivative of g.
For example, we know that an anti-derivative of 
We may then deduce that an anti-derivative of 
You can take higher derivatives with respect to y here as well. This allows
you to deduce a formula for an anti-derivative of a function of the form xk
eax, by differentiating 
k times with respect to y and then setting y = a.
This method when it applies converts finding anti-derivatives to making appropriate differentiations. However, almost everything you can deduce this way can be gotten as well by integrating by parts judiciously.
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