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Lösung 2.3:2b

Aus Online Mathematik Brückenkurs 2

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Version vom 10:27, 11. Mär. 2009

We have a product of two factors in the integrand, so an integration by parts does not seem unreasonable. There is nevertheless a problem as regards which factor should be differentiated and which should be integrated. If we choose to differentiate x3 (so as to reduce its exponent by 1), we need to find a primitive function for ex2, and how do we do that? If, on the other hand, we integrate x3 and differentiate ex2, we get

x3ex2dx=4x4ex24x4ex22xdx=41x4ex221x5ex2dx

which just seems to make the integral harder. The solution is instead to substitute u=x2. If we write the integral as

10x3ex2dx=10x2ex2xdx 

we see that the expression "xdx" can be replaced by du and the rest of the integrand contains only x in the form of x2. The substitution gives

10x3ex2dx=10x2ex2xdx=udu=x2=x2dx=2xdx=10ueu21du=2110ueudu.

We can then calculate this integral by integration by parts, where we differentiate away the factor u,

2110ueudu=21 ueu 1021101eudu=211e1021 eu 10=21e21e1e0=21e21e+21=21.
Von „http://wiki.math.se/wikis/2009/bridgecourse2-TU-Berlin/index.php/L%C3%B6sung_2.3:2b