<![CDATA[How to create a surface based on spherical triangle corner points]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points
Sun, 08 Mar 2020 21:00:31 +0000Mon, 13 Aug 2018 18:47:09 +0000Zend_Feed<![CDATA[Thank you guys very much for your help. And yes, matmagic gave me the answer earlier already but I was too blind to see it... Sorry for that. @Loco: thanks for that brief explanation of what matmagic did with his formula. That was very helpful to get the idea behind his formula.]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244840
Wed, 15 Aug 2018 22:47:19 +0000<![CDATA[Doesn't look to me an easy thing to achieve... https://www.geogebra.org/m/ZaQWGcz5]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244752
Tue, 14 Aug 2018 07:32:36 +0000<![CDATA[u = Vektor(M, A)
v = Vektor(M, B)
w = Vektor(M, C)
r = sqrt(Skalarprodukt(M-A, M-A))Oberfläche(x((cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r ) + sin(k) w) / sqrt(Skalarprodukt(cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r) + sin(k) w, cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r ) + sin(k) w)) * r + M ), y((cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r ) + sin(k) w) / sqrt(Skalarprodukt(cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r) + sin(k) w, cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r) + sin(k) w)) * r + M ), z((cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r) + sin(k) w) / sqrt(Skalarprodukt(cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r) + sin(k) w, cos(k) ((cos(t) u + sin(t) v) / sqrt(Skalarprodukt(cos(t) u + sin(t) v, cos(t) u + sin(t) v)) * r ) + sin(k) w)) * r + M ), t, 0, pi/2, k, 0, pi/2) Das Werkzeug zu machen überlasse ich jemand anderen (und das Vereinfachen auch). Falls das jemand schöner machen will. Es basiert alles auf der Kurvenfunktion . Wobei die Vektoren u und v beliebige Ursprungsvektoren sind (deshalb nach Anwendung u.U. verschieben).]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244764
Tue, 14 Aug 2018 16:40:09 +0000<![CDATA[or equivalently use b = Surface(A + Distance(A, C) 1.01((1 - u) (1 - v) C + (1 - u) v D + u E - A) / sqrt(((1 - u) (1 - v) C + (1 - u) v D + u E - A)²), u, 0, 1, v, 0, 1)]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244822
Wed, 15 Aug 2018 16:47:45 +0000<![CDATA[@Axcel just replace one of the corner points within that formula with the name of one of the other points (a.e. replace F with E within that formula) and simplify it (see the formula posted by mathmatic bellow). And if you had reread those posts of him, he posted that formula that time: Spherical angles on the surface of a sphere It is a quite easy technique similar to mine posted above. He builds a curve between two Points A and B with a simple linear combination A t + (1-t) B with t from 0 to 1 and combines this twice to get a point on an planar triangular surface between three or four points. And to get the curved triangle he divides the vector of the surface point by his the distance to the center point and multiplies it with an radius. Simple and robust.]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244820
Wed, 15 Aug 2018 17:18:36 +0000<![CDATA[That's impressive, mathmagic! (As usual, I'd say 😉)]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244818
Wed, 15 Aug 2018 16:36:02 +0000<![CDATA[https://help.geogebra.org/t...]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244772
Tue, 14 Aug 2018 19:54:04 +0000<![CDATA[I did not knew of those simplifications, thanks. Now one additional command for 3-point-patches is: Oberfläche(((C - M) cos(l) + ((A - M) cos(k) + (B - M) sin(k)) / sqrt(((A - M) cos(k) + (B - M) sin(k)) ((A - M) cos(k) + (B - M) sin(k))) sin(l)) / sqrt(((C - M) cos(l) + ((A - M) cos(k) + (B - M) sin(k)) / sqrt(((A - M) cos(k) + (B - M) sin(k)) ((A - M) cos(k) + (B - M) sin(k))) sin(l)) ((C - M) cos(l) + ((A - M) cos(k) + (B - M) sin(k)) / sqrt(((A - M) cos(k) + (B - M) sin(k)) ((A - M) cos(k) + (B - M) sin(k))) sin(l))) Abstand(M, A) + M, k, 0, π / 2, l, 0, π / 2)]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244778
Tue, 14 Aug 2018 21:07:22 +0000<![CDATA[It could be written much shorter if there was a possibility to use UnitVector( <Vector> ), points or vectors at all within Formulas or Surfaces. Then it could be written as: F(u, v, t) = UnitVector(cos(t) u + sin(t) v) Surface( F(A-M,F(B-M,C-A,k),l) * Distance(M, A) + M , k, 0, π / 2, l, 0, π / 2) But unfortunately it is not possible.]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244784
Wed, 15 Aug 2018 08:12:21 +0000<![CDATA[see the posts of my link, it is very easy]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244808
Wed, 15 Aug 2018 15:07:16 +0000<![CDATA[Thanks to all of you first of all! It is in fact much more "complicado" than I would have thought. I also hope that a future version of GeoGebra will provide easier means of achieving this, just as Loco has stated above. In fact, the genius mathmagic helped me once on a different but similar matter. Attached please find the file from back then. I appreciate the fact that the surface has a slightly larger distance from the center point than the radius of the sphere so that there is a "clean display" of the surface. It's only that the file works with four points rather than three. How must the formula in the file be modified for three corner points?]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-244814
Wed, 15 Aug 2018 16:00:28 +0000<![CDATA[Hello is there a way to calculate the area of a spherical polygon? Thank you Arik]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-276946
Sun, 08 Mar 2020 12:14:46 +0000<![CDATA[wikipedia says: (https://en.wikipedia.org/wi...) ]]>
https://help.geogebra.org/topic/how-to-create-a-surface-based-on-spherical-triangle-corner-points#comment-276994
Sun, 08 Mar 2020 21:00:31 +0000