= ${\left[2{\left(2x-4\right)}^{\frac{3}{2}}\right]}_{10}^{\frac{29}{2}}$

= ${\left[2{\left(\sqrt{2x-4}\right)}^3\right]}_{10}^{\frac{29}{2}}$

$=$ $2{\left(\sqrt{2\cdot \left(\frac{29}{2}\right)-4}\right)}^3-2{\left(\sqrt{2\cdot 10-4}\right)}^3$

= $2{\left(\sqrt{29-4}\right)}^3-2{\left(\sqrt{20-4}\right)}^3$

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

= $2\cdot 5^3-2\cdot 4^3$

= $2\cdot 125-2\cdot 64$

= $250-128$

= $122$

= ${\left[\frac{3}{2}{e}^{2x-5}\right]}_1^3$

$=$ $\frac{3}{2}{e}^{2\cdot 3-5}-\frac{3}{2}{e}^{2\cdot 1-5}$

= $\frac{3}{2}{e}^{6-5}-\frac{3}{2}{e}^{2-5}$

= $\frac{3}{2}{e}^1-\frac{3}{2}{e}^{-3}$

= $\frac{3}{2}e-\frac{3}{2}{e}^{-3}$

= ${\left[e^{\mathrm{0,3}x-\mathrm{0,2}}\right]}_0^u$

$=$ $e^{\mathrm{0,3}u-\mathrm{0,2}}-e^{\mathrm{0,3}\cdot 0-\mathrm{0,2}}$

= $e^{\mathrm{0,3}u-\mathrm{0,2}}-e^{0-\mathrm{0,2}}$

= $e^{\mathrm{0,3}u-\mathrm{0,2}}-e^{-\mathrm{0,2}}$

Diese Integralfunktion soll ja den Wert $7$ annehmen, deswegen setzen wir sie gleich :

Wir berechnen den Mittelwert mit der üblichen Formel:

= $1$ ${\left[\frac{4}{3}{e}^{3x-7}\right]}_2^3$

$=$ $\frac{4}{3}{e}^{3\cdot 3-7}-\frac{4}{3}{e}^{3\cdot 2-7}$

= $\frac{4}{3}{e}^{9-7}-\frac{4}{3}{e}^{6-7}$

= $\frac{4}{3}{e}^2-\frac{4}{3}{e}^{-1}$

= ${\left[\frac{2}{3}{\left(3x-5\right)}^{-1}\right]}_2^u$

= ${\left[\frac{2}{3\left(3x-5\right)}\right]}_2^u$

$=$ $\frac{2}{3\left(3u-5\right)}-\frac{2}{3\left(3\cdot 2-5\right)}$

= $\frac{2}{3\left(3u-5\right)}-\frac{2}{3\left(6-5\right)}$

= $\frac{2}{3\left(3u-5\right)}-\frac{2}{3}$

= $\frac{2}{3\left(3u-5\right)}-\frac{2}{3}\cdot 1$

= $\frac{2}{3\left(3u-5\right)}-\frac{2}{3}$

Für u → ∞ gilt: A(u) = $\frac{2}{3\left(3u-5\right)}-\frac{2}{3}$ → $0-\frac{2}{3}$ = $-\frac{2}{3}$ ≈ -0.667

Für den Flächeninhalt (immer positiv) gilt also I = 0.667