Geometrie-Stereometrie-Kreiskegel

$V = \frac{1}{3}\cdot r^{2} \cdot \pi \cdot h$
1 2
$r = \sqrt{\frac{3\cdot V}{\pi \cdot h}}$
1
$h = \frac{3\cdot V}{r^{2} \cdot \pi }$
1
$O = r\cdot \pi \cdot (r+s)$
1
$s = \frac{ O}{r\cdot \pi } - r$
1 2 3
$r = \frac{-\pi \cdot s + \sqrt{(\pi \cdot s)^{2} +4\cdot \pi \cdot O}}{ 2\cdot \pi }$
1 2 3
$M = r\cdot \pi \cdot s$
$s = \frac{ M}{r\cdot \pi }$
1 2 3 4
$r = \frac{ M}{s\cdot \pi }$
1 2 3 4 5
$s =\sqrt{h^{2} + r^{2} }$
1
$r =\sqrt{s^{2} - h^{2} }$
1
$h =\sqrt{s^{2} - r^{2} }$
1
Beispiel Nr: 01
$\begin{array}{l} \text{Gegeben:}\\\text{Mantelfläche} \qquad M\qquad [m^{2}] \\ \text{Mantellinie} \qquad s \qquad [m] \\ \text{Kreiszahl} \qquad \pi \qquad [] \\ \\ \text{Gesucht:} \\ \text{Radius} \qquad r \qquad [m] \\ \\ r = \frac{ M}{s\cdot \pi }\\ \textbf{Gegeben:} \\ M=4m^{2} \qquad s=2m \qquad \pi=3\frac{16}{113} \qquad \\ \\ \textbf{Rechnung:} \\ r = \frac{ M}{s\cdot \pi } \\ s=2m\\ \pi=3\frac{16}{113}\\ M=4m^{2}\\ r = \frac{ 4m^{2}}{2m\cdot 3\frac{16}{113} }\\\\r=0,637m \\\\\\ \small \begin{array}{|l|} \hline M=\\ \hline 4 m^2 \\ \hline 400 dm^2 \\ \hline 4\cdot 10^{4} cm^2 \\ \hline 4\cdot 10^{6} mm^2 \\ \hline \frac{1}{25} a \\ \hline 0,0004 ha \\ \hline \end{array} \small \begin{array}{|l|} \hline s=\\ \hline 2 m \\ \hline 20 dm \\ \hline 200 cm \\ \hline 2\cdot 10^{3} mm \\ \hline 2\cdot 10^{6} \mu m \\ \hline \end{array} \small \begin{array}{|l|} \hline r=\\ \hline 0,637 m \\ \hline 6\frac{26}{71} dm \\ \hline 63,7 cm \\ \hline 637 mm \\ \hline 6,37\cdot 10^{5} \mu m \\ \hline \end{array} \end{array}$