30, its a combination. C(6,3) because there are six vertices of a hexagon and three vertices of a triangle
That would depend on which hexagon and what triangles. A small hexagon might not have room for any large triangles. A large hexagon will have room fro many small triangles.If you have a regular hexagon and connect the vertices you will have drawn six equilateral triangles
The three major diagonals in an ordinary hexagon do not intersect at the same point. Therefore, in such a hexagon, the diagonals form 111 triangles.
To determine the number of triangles in a star inside a hexagon, we need to consider the number of triangles formed by the lines connecting the vertices of the hexagon and the points where the lines of the star intersect. Each intersection point forms a triangle with two adjacent vertices of the hexagon. Therefore, if the star has n points of intersection, the total number of triangles would be n multiplied by 2. Additionally, we need to consider the triangles formed by the lines of the star itself, which would add n triangles to the total count. So, the total number of triangles in a star inside a hexagon would be 3n.
Yes 3 and 6 respectively
A hexagon has more vertices.
That would depend on which hexagon and what triangles. A small hexagon might not have room for any large triangles. A large hexagon will have room fro many small triangles.If you have a regular hexagon and connect the vertices you will have drawn six equilateral triangles
To create a large triangle using one hexagon and three triangles, first, position the hexagon so that one of its sides is aligned horizontally. Then, place the three triangles around the hexagon, with their bases aligned with the hexagon's sides, forming an outward-facing triangle shape. Ensure that the points of the triangles reach outward to complete the larger triangle's vertices. Adjust the positioning to ensure all shapes fit together seamlessly, creating a cohesive larger triangle.
pentagon i think?
Well, a hexagon is made of six equilateral triangles.
The three major diagonals in an ordinary hexagon do not intersect at the same point. Therefore, in such a hexagon, the diagonals form 111 triangles.
A triangle forms other polygons as for instance there are 4 triangles in an hexagon and 8 triangles in a decagon
To determine the number of triangles in a star inside a hexagon, we need to consider the number of triangles formed by the lines connecting the vertices of the hexagon and the points where the lines of the star intersect. Each intersection point forms a triangle with two adjacent vertices of the hexagon. Therefore, if the star has n points of intersection, the total number of triangles would be n multiplied by 2. Additionally, we need to consider the triangles formed by the lines of the star itself, which would add n triangles to the total count. So, the total number of triangles in a star inside a hexagon would be 3n.
How can a you make a hexagon using a trapozid and 2 triangles
Yes 3 and 6 respectively
If you want a triangle per each side of a regular hexagon, the answer is 6.
the amount of times a triangle can go into a hexagon is six timestotal number of possible triangles = 22feel the love :)Another Answer:-Extending from one vertex there are 4 triangles in a hexagon because there are 180 degrees in a triangle and 4*180 equals 720 degrees which is the sum of the angles in an hexagon.
A shape that has 3 more vertices than a triangle, which has 3 vertices, is a hexagon. A hexagon has a total of 6 vertices. This geometric figure can be regular, with all sides and angles equal, or irregular, with varying side lengths and angles.