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.
30, its a combination. C(6,3) because there are six vertices of a hexagon and three vertices of a triangle
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.
If all of the diagonals are drawn from a vertex of an octagon, how many triangles are formed
10 triangles....
1 triangle is formed.
30, its a combination. C(6,3) because there are six vertices of a hexagon and three vertices of a triangle
110.Improved Answer:-It is 4
Diagonals in an hexagon: 0.5*(6^2 -3*6) = 9 diagonals
how many triangles are formed when any parallelogram and it diagonals are drawn
13 triangles will be formed
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.
If all of the diagonals are drawn from a vertex of an octagon, how many triangles are formed
5 triangles are formed.
10 triangles....
Eight triangles.
There are 48 triangles that can be formed because 6 triangles can be formed usin each point multiplied by 8.
In a six-sided polygon (hexagon), there are a total of four triangles that can be formed. Each triangle is formed by connecting three non-adjacent vertices of the hexagon. This can be calculated using the formula n(n-3)/2, where n represents the number of sides of the polygon. So, for a hexagon, the calculation would be 6(6-3)/2 = 4 triangles.