User:Hans G. Oberlack/QV 1.6776922

Shows the largest quarter circle within a square.

Elements

Base is the square ${\displaystyle [ABCD]}$ of side length s.
Inscribed is the largest possible quarter circle of radius r.

General case

Segments in the general case

0) The side length of the base square ${\displaystyle =s}$
1) Radius of the quarter circle ${\displaystyle r=s}$

Perimeters in the general case

0) Perimeter of base square${\displaystyle =4\cdot s}$
1) Perimeter of the quarter circle${\displaystyle =2\cdot r+{\frac {\pi \cdot r}{2}}=(2+{\frac {\pi }{2}})\cdot r=(2+{\frac {\pi }{2}})\cdot s}$

Areas in the general case

0) Area of the base square ${\displaystyle =s^{2}}$
1) Area of the inscribed quarter circle${\displaystyle ={\frac {\pi \cdot r^{2}}{4}}={\frac {\pi }{4}}\cdot s^{2}}$

Centroids in the general case

Centroid positions are measured from the lower left point of the square.
0) Centroid positions of the base square: ${\displaystyle x_{c}={\frac {s}{2}}\quad y_{c}={\frac {s}{2}}}$
1) Centroid positions of the inscribed quarter circle: ${\displaystyle x_{c}={\frac {4\cdot r}{3\cdot \pi }}={\frac {4\cdot s}{3\cdot \pi }}\quad y_{c}={\frac {4\cdot r}{3\cdot \pi }}={\frac {4\cdot s}{3\cdot \pi }}}$

Normalised case

Black-and-White version

In the normalised case the area of the base is set to 1.
${\displaystyle ||ABCD||=1\Rightarrow s^{2}=1\Rightarrow s=1}$

Segments in the normalised case

0) Segment of the base square ${\displaystyle s=1}$
1) Segment of the inscribed quarter circle ${\displaystyle r=s=1}$

Perimeters in the normalised case

0) Perimeter of base square ${\displaystyle P_{0}=4}$
1) Perimeter of the inscribed quarter circle ${\displaystyle P_{1}=(2+{\frac {\pi }{2}})\cdot 1=3.570796...}$
S) Sum of perimeters ${\displaystyle P_{s}=(6+{\frac {\pi }{2}})=7.570796...}$

Areas in the normalised case

0) Area of the base square ${\displaystyle A_{0}=1}$
1) Area of the inscribed quarter circle ${\displaystyle A_{1}={\frac {\pi \cdot r^{2}}{4}}={\frac {\pi }{4}}=0.785398...}$

Centroids in the normalised case

Centroid positions are measured from the lower left point of the square.
0) Centroid positions of the base square: ${\displaystyle x_{0}={\frac {1}{2}}\quad y_{0}={\frac {1}{2}}}$
1) Centroid positions of the inscribed quarter circle:${\displaystyle x_{1}={\frac {4\cdot 1}{3\cdot \pi }}=0.42441318...\quad y_{1}={\frac {4\cdot 1}{3\cdot \pi }}=0.42441318...}$

Distances of centroids

The distance between the centroid of the base element and the centroid of the quarter circle is:
${\displaystyle d={\sqrt {(x_{0}-x_{1})^{2}+(y_{0}-y_{1})^{2}}}=0,1068959...}$

Identifying number

Apart of the base element there is only one shape allocated. Therefore the integer part of the identifying number is 1.
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.

${\displaystyle decimalpart(7.5707963...+0.1068959...)=decimalpart(7.6776922...)=.6776922}$

So the identifying number is: ${\displaystyle 1.6776922}$