4 because the Hebrew star has 2 triangles on it meaning if you had a star in a star you would have double right? So There we conclude that there is 4 triangles in a star within a star.
In 3d a hexagonal pyramid. In 2d, two hexagons. Or a six-pointed star (like a Star of David), a parallelogram plus lots more possibilities
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Star of David (2 equilateral triangles - one upside down from the other). Or a regular hexagon: _ / .\ \_/ Well I tried drawing one with text.
potato
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The first one that comes to mind is the Star of David (Jewish Star).
There are 3 to 10 triangles in a star.
With 6 equilateral triangles oriented with a point from each touching in the center of the imagined hexagon, you would have a hexagon. The following would make a 6 pointed star which is not a hexagon because it would have 12 edges: "It takes 2 triangles to make a hexagon. Take one triangle, put a side of it flat down, take a second triangle, and put its point downwards and overlap it with the 1st triangle. Hint; It should make a Star of David. Hope this helped."
A hexagram is a star-shaped figure formed by two intersecting equilateral triangles. A hexagon is a six-sided polygon or 6-gon.
There is 8 triangles in the Star of David.
4 because the Hebrew star has 2 triangles on it meaning if you had a star in a star you would have double right? So There we conclude that there is 4 triangles in a star within a star.
Six triangles.
In a perfect star, the triangles have two 72 degree angles and one 36 degree angle.
Yes: First drawer a Hexagon (6 sided figure), as you complete the last side, continue around the outside adding the "points" of the star (forming triangles at each side of the Hexagon), and thus completing the Star