THE PERFECT CIRCULAR GEOMETRY OF
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Here are the discoveries that can be made now. Everything can be seen again in the bid diagram, but the small pictures show the details more clearly. They are explained (do they need to?) in the bottom of the page. |  page 6 |
 Circle A yellow, Circle B red, Circle C blue, Circle D green (Circle D defines the center of circles C) |
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| 1: Circles A fill the triangle exactly! 2: Four of circles B fill the triangle and six of them fill circle D! So D=3xB. 3: B fits in the space defined by C, D and the corner of the triangle! 3: Three A's crossing the center fit inside three B's in the triangle's corners and the circles C! 3: Three more A's fit inside the space defined by the 3 first A's, C's and D! D=4xA. 4: C's touch B and C=2xB! 5: The "radius" of the triangle equals C! 6: D's place on the centers of C's cross each other in the middle! 7: The height of the triangle equals D! 8: And this is the result! And of course C also fits inside the triangle! And see how the yellow rectangle drawn around the "flower" made of A's matches with the flower made of B's and circle C AND circle D! This certainly demonstrates the relationship between all these circles! So all A, B, C and D match the triangle and each other one way or another. What more can you ask for? THE LARGEST CIRCLE! It should go exactly around the triangles corners, when it would be 2xC and 4xB. Instead IT IS TOO BIG!! There is no way to conclude the size of it from the other circles or the triangle - unless you take into account the thickness of it and the triangle's edges, when the outer corners of the triangle match the outer ring. OR we could just put the thickness to the circle and it's inner edge would somewhat match the triangle's corners. |