User:Hans G. Oberlack/FS V

The radius of the quarter circle ${\displaystyle =r}$ 

Perimeter of base quarter circle ${\displaystyle P_{0}=2\cdot r+{\frac {\pi \cdot r}{2}}=(2+{\frac {\pi }{2}})\cdot r}$ 

Area of the base quarter circle ${\displaystyle A_{0}={\frac {\pi \cdot r^{2}}{4}}}$ 

By definition the centroid points of a base shape are ${\displaystyle x_{0}=0\quad y_{0}=0}$ . Relatively is the lower left point of the base of the quarter circle at:
${\displaystyle x_{c}=-{\frac {4\cdot r}{3\cdot \pi }}\quad y_{c}=-{\frac {4\cdot r}{3\cdot \pi }}}$ 

In the normalised case the area of the base quarter circle is set ${\displaystyle A_{0}=1}$ 

Since ${\displaystyle A_{0}={\frac {\pi \cdot r^{2}}{4}}=1\quad \Rightarrow r^{2}={\frac {4}{\pi }}\quad \Rightarrow r={\sqrt {\frac {4}{\pi }}}={\frac {2}{\sqrt {\pi }}}=1.128379...}$ 

Perimeter of base quarter circle ${\displaystyle P_{0}=(2+{\frac {\pi }{2}})\cdot r=(2+{\frac {\pi }{2}})\cdot {\frac {2}{\sqrt {\pi }}}=4.029212...}$ 

Positions of the lower left corner of base quarter circle: ${\displaystyle x_{L}=-{\frac {4\cdot r}{3\cdot \pi }}=-{\frac {4}{3\cdot \pi }}\cdot {\sqrt {\frac {4}{\pi }}}=-{\sqrt {\frac {64}{9\cdot \pi ^{3}}}}=-0.479...\quad y_{L}=x_{L}=-0.479...}$ 

Apart of the base element there is no other shape allocated. Therefore the integer part of the identifying number is 0.
The decimal part of the identifying number is the decimal part of the sum of the perimeters and the distances of the centroids in the normalised case.

${\displaystyle decimalpart(4.0292122...+0)=decimalpart(4.0292122...)=.0292122...}$ 

So the identifying number is: ${\displaystyle 0.0292122}$