= ${\left[\frac{2}{3}{\left(2x-2\right)}^{\frac{3}{2}}\right]}_9^{\frac{27}{2}}$

= ${\left[\frac{2}{3}{\left(\sqrt{2x-2}\right)}^3\right]}_9^{\frac{27}{2}}$

$=$ $\frac{2}{3}{\left(\sqrt{2\cdot \left(\frac{27}{2}\right)-2}\right)}^3-\frac{2}{3}{\left(\sqrt{2\cdot 9-2}\right)}^3$

= $\frac{2}{3}{\left(\sqrt{27-2}\right)}^3-\frac{2}{3}{\left(\sqrt{18-2}\right)}^3$

= $\frac{2}{3}{\left(\sqrt{25}\right)}^3-\frac{2}{3}{\left(\sqrt{16}\right)}^3$

= $\frac{2}{3}\cdot 5^3-\frac{2}{3}\cdot 4^3$

= $\frac{2}{3}\cdot 125-\frac{2}{3}\cdot 64$

= $\frac{250}{3}-\frac{128}{3}$

= $\frac{122}{3}$

= ${\left[\frac{3}{2}\ln \left(\left|$ 2x-1$\right|\right)\right]}_2^4$

$=$ $\frac{3}{2}\ln \left(\left|$ 2\cdot 4-1$\right|\right)-\frac{3}{2}\ln \left(\left|$ 2\cdot 2-1$\right|\right)$

= $\frac{3}{2}\ln \left(\left|$ 8-1$\right|\right)-\frac{3}{2}\ln \left(\left|$ 4-1$\right|\right)$

= $\frac{3}{2}\ln \left(7\right)-\frac{3}{2}\ln \left(\left|$ 4-1$\right|\right)$

= $\frac{3}{2}\ln \left(7\right)-\frac{3}{2}\ln \left(3\right)$

= ${\left[4x^2\right]}_3^u$

$=$ $4u^2-4\cdot 3^2$

= $4u^2-4\cdot 9$

= $4u^2-36$

Diese Integralfunktion soll ja den Wert $45$ annehmen, deswegen setzen wir sie gleich :

Da u= $-\frac{9}{2}$ < 3 ist u= $\frac{9}{2}$ die einzige Lösung.

Wir berechnen den Mittelwert mit der üblichen Formel:

= $\frac{1}{3}$ ${\left[\frac{1}{3}{e}^{3x-6}\right]}_1^4$

$=$ $\frac{1}{3}\left(\frac{1}{3}{e}^{3\cdot 4-6}-\frac{1}{3}{e}^{3\cdot 1-6}\right)$

= $\frac{1}{3}\left(\frac{1}{3}{e}^{12-6}-\frac{1}{3}{e}^{3-6}\right)$

= $\frac{1}{3}\left(\frac{1}{3}{e}^6-\frac{1}{3}{e}^{-3}\right)$

= ${\left[-2{\left(2x-4\right)}^{\frac{1}{2}}\right]}_u^{10}$

= ${\left[-2\sqrt{2x-4}\right]}_u^{10}$

$=$ $-2\sqrt{2\cdot 10-4}+2\sqrt{2u-4}$

= $-2\sqrt{20-4}+2\sqrt{2u-4}$

= $-2\sqrt{16}+2\sqrt{2u-4}$

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

= $-8+2\sqrt{2u-4}$

Für u → 2 (u>2, also von rechts) gilt: A(u) = $2\sqrt{2u-4}-8$ → $0-8$ = $-8$ ≈ -8

Für den Flächeninhalt (immer positiv) gilt also I = 8