= ${\left[-\frac{5}{6}{\left(2x-3\right)}^{-3}\right]}_3^6$

= ${\left[-\frac{5}{6{\left(2x-3\right)}^3}\right]}_3^6$

$=$ $-\frac{5}{6{\left(2\cdot 6-3\right)}^3}+\frac{5}{6{\left(2\cdot 3-3\right)}^3}$

= $-\frac{5}{6{\left(12-3\right)}^3}+\frac{5}{6{\left(6-3\right)}^3}$

= $-\frac{5}{6\cdot 9^3}+\frac{5}{6\cdot 3^3}$

= $-\frac{5}{6}\cdot \left(\frac{1}{729}\right)+\frac{5}{6}\cdot \left(\frac{1}{27}\right)$

= $-\frac{5}{4374}+\frac{5}{162}$

= $-\frac{5}{4374}+\frac{135}{4374}$

= $\frac{65}{2187}$

= ${\left[2e^{3x-7}\right]}_2^5$

$=$ $2e^{3\cdot 5-7}-2e^{3\cdot 2-7}$

= $2e^{15-7}-2e^{6-7}$

= $2e^8-2e^{-1}$

= ${\left[-6e^{-\mathrm{0,7}x+\mathrm{0,2}}\right]}_0^u$

$=$ $-6e^{-\mathrm{0,7}u+\mathrm{0,2}}+6e^{-\mathrm{0,7}\cdot 0+\mathrm{0,2}}$

= $-6e^{-\mathrm{0,7}u+\mathrm{0,2}}+6e^{0+\mathrm{0,2}}$

= $-6e^{-\mathrm{0,7}u+\mathrm{0,2}}+6e^{\mathrm{0,2}}$

Diese Integralfunktion soll ja den Wert $1$ annehmen, deswegen setzen wir sie gleich :

Wir berechnen den Mittelwert mit der üblichen Formel:

= $\frac{2}{\pi }$ ${\left[\frac{1}{3}\cdot \sin (3x-\pi )\right]}_{\frac{1}{2}\pi }^{\pi }$

$=$ $\frac{2}{\pi }·\left(\frac{1}{3}\cdot \sin (3\cdot \pi -\pi )-\frac{1}{3}\cdot \sin (3\cdot \left(\frac{1}{2}\pi \right)-\pi )\right)$

= $\frac{2}{\pi }·\left(\frac{1}{3}\cdot \sin \left(2\pi \right)-\frac{1}{3}\cdot \sin \left(\frac{1}{2}\pi \right)\right)$

= $\frac{2}{\pi }·\left(\frac{1}{3}\cdot 0-\frac{1}{3}\cdot 1\right)$

= $\frac{2}{\pi }·\left(0-\frac{1}{3}\right)$

= $\frac{2}{\pi }·\left(0-\frac{1}{3}\right)$

= $\frac{2}{\pi }·\left(-\frac{1}{3}\right)$

= $-\frac{2}{3\pi }$

= ${\left[{\left(2x-4\right)}^{\frac{1}{2}}\right]}_u^{\mathrm{6,5}}$

= ${\left[\sqrt{2x-4}\right]}_u^{\mathrm{6,5}}$

$=$ $\sqrt{2\cdot \mathrm{6,5}-4}-\sqrt{2u-4}$

= $\sqrt{13-4}-\sqrt{2u-4}$

= $\sqrt{9}-\sqrt{2u-4}$

= $3-\sqrt{2u-4}$

= $-\sqrt{2u-4}+3$

Für u → 2 (u>2, also von rechts) gilt: A(u) = $-\sqrt{2u-4}+3$ → $0+3$ = $3$ ≈ 3

Für den Flächeninhalt (immer positiv) gilt also I = 3