= ${\left[-2{\left(2x-5\right)}^{-1}\right]}_3^6$

= ${\left[-\frac{2}{2x-5}\right]}_3^6$

$=$ $-\frac{2}{2\cdot 6-5}+\frac{2}{2\cdot 3-5}$

= $-\frac{2}{12-5}+\frac{2}{6-5}$

= $-\frac{2}{7}+\frac{2}{1}$

= $-2\cdot \left(\frac{1}{7}\right)+2\cdot 1$

= $-\frac{2}{7}+2$

= $-\frac{2}{7}+\frac{14}{7}$

= $\frac{12}{7}$

= ${\left[4{\left(x-2\right)}^{\frac{3}{2}}\right]}_{11}^{27}$

= ${\left[4{\left(\sqrt{x-2}\right)}^3\right]}_{11}^{27}$

$=$ $4{\left(\sqrt{27-2}\right)}^3-4{\left(\sqrt{11-2}\right)}^3$

= $4{\left(\sqrt{25}\right)}^3-4{\left(\sqrt{9}\right)}^3$

= $4\cdot 5^3-4\cdot 3^3$

= $4\cdot 125-4\cdot 27$

= $500-108$

= $392$

= ${\left[7e^{\mathrm{0,5}x-\mathrm{0,9}}\right]}_0^u$

$=$ $7e^{\mathrm{0,5}u-\mathrm{0,9}}-7e^{\mathrm{0,5}\cdot 0-\mathrm{0,9}}$

= $7e^{\mathrm{0,5}u-\mathrm{0,9}}-7e^{0-\mathrm{0,9}}$

= $7e^{\mathrm{0,5}u-\mathrm{0,9}}-7e^{-\mathrm{0,9}}$

Diese Integralfunktion soll ja den Wert $13$ annehmen, deswegen setzen wir sie gleich :

Wir berechnen den Mittelwert mit der üblichen Formel:

= $\frac{1}{\pi }$ ${\left[-\frac{5}{3}\cdot \cos (3x+\pi )\right]}_0^{\pi }$

$=$ $\frac{1}{\pi }·\left(-\frac{5}{3}\cdot \cos (3\cdot \pi +\pi )+\frac{5}{3}\cdot \cos (3\cdot \left(0\right)+\pi )\right)$

= $\frac{1}{\pi }·\left(-\frac{5}{3}\cdot \cos \left(4\pi \right)+\frac{5}{3}\cdot \cos \left(\pi \right)\right)$

= $\frac{1}{\pi }·\left(-\frac{5}{3}\cdot 1+\frac{5}{3}\cdot \left(-1\right)\right)$

= $\frac{1}{\pi }·\left(-\frac{5}{3}-\frac{5}{3}\right)$

= $\frac{1}{\pi }·\left(-\frac{10}{3}\right)$

= $-\frac{10}{3\pi }$

= ${\left[3\ln \left(\left|$ x-1$\right|\right)\right]}_u^5$

$=$ $3\ln \left(\left|$ 5-1$\right|\right)-3\ln \left(\left|$ u-1$\right|\right)$

= $3\ln \left(4\right)-3\ln \left(\left|$ u-1$\right|\right)$

Für u → 1 (u>1, also von rechts) gilt: A(u) = $3\ln \left(\left|$ 4$\right|\right)-3\ln \left(\left|$ x-1$\right|\right)$ → $\infty$