no
No because they have 7 vertices
To determine how many heptagons can be formed by joining the vertices of a 10-sided polygon, we can use the combination formula. Specifically, we need to choose 7 vertices from the 10 available. This is calculated as ( \binom{10}{7} ), which is equal to ( \binom{10}{3} ) (since choosing 7 vertices to include is the same as choosing 3 vertices to exclude). Thus, ( \binom{10}{3} = \frac{10!}{3!(10-3)!} = 120 ). Therefore, 120 heptagons can be drawn by joining the vertices of a 10-sided polygon.
All seven sided polygons are known as "heptagons". Heptagons that have all side lengths the same are known as "regular heptagons".
Six sides and six vertices.
A triangular prism has nine edges and six vertices.
No because they have 7 vertices
14
120
They can have faces which are triangles, quadrilaterals, pentagons, hexagons or heptagons. It has 8 faces and can have 6 to 12 vertices.
No. A sphere has no vertices. An octohedron has six vertices.
All seven sided polygons are known as "heptagons". Heptagons that have all side lengths the same are known as "regular heptagons".
An hexagon is a polygon that has six sides and six vertices.
Six sides and six vertices.
A triangular prism has nine edges and six vertices.
The weights are tabulated in table given below. V1V2V3V4V5V6V1-1016111017V210-9.5InfInf19.5V3169.5-7Inf12V411Inf7-87V510InfInf8-9V61719.51279-
6 vertices.
A pentahedron can have 5 or six vertices.