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User:Hans G. Oberlack/FS R

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The rectangular isosceles triangle as base element.

General case

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Segments in the general case

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The side of the rectangular isosceles triangle ABC
The segment BC is the hypothenusis h of the triangle. h depends on the length of the side:

Applying the Pythagorean theorem to the triangle ABC leads to:



Perimeter in the general case

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Perimeter of base rectangular isosceles triangle

Area in the general case

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Area of the base rectangular isosceles triangle

Centroids in the general case

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By definition the centroid points of a base shape are . Relatively is the lower left point of the of the base of the triangle at:

Normalised case

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Area in the normalised case

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In the normalised case the area of the base isosceles triangle is set to .

Segment in the normalised case

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With

Perimeter in the normalised case

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Perimeter of base rectangular isosceles triangle

Centroids in the normalised case

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The positions of lower left point of the base rectangular isosceles triangle:


Identifying number

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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.



So the identifying number is: