No, it cannot.
No. Not can it have an odd number of vertices.
no
No, because there is no such word as verticle. It cannot have an odd number of vertices either!
Well, honey, let me break it down for you. A pyramid can have an odd or even number of vertices, depending on the base shape. If the base has an odd number of sides, then the pyramid will have an odd number of vertices. But if the base has an even number of sides, then the pyramid will have an even number of vertices. It's as simple as that, darling.
27 is an odd number.
No. Not can it have an odd number of vertices.
no
No, because there is no such word as verticle. It cannot have an odd number of vertices either!
To calculate the vertices of a prism, first determine the number of vertices in the base polygon. A prism has two identical bases, so you multiply the number of vertices in the base by two. Additionally, the number of vertices in a prism is equal to the number of vertices in the base multiplied by two (V = 2 * B), where V is the total number of vertices and B is the number of vertices in the base polygon. For example, a triangular prism has 3 vertices on each base, resulting in a total of 6 vertices.
Yes, a prism has an even number of vertices. A prism is a three-dimensional shape with two parallel and congruent polygonal bases connected by rectangular or parallelogram faces. The number of vertices in a prism is equal to the number of vertices in its bases plus the number of vertices in the lateral faces. Since each base has an equal number of vertices, and the lateral faces have an even number of vertices, the total number of vertices in a prism is always even.
for any prism , number of ___ + number of vertices = number of edges + ___
6 vertices
It has 12 vertices
You count the number of vertices in the polygon that forms the base. The prism has twice as many vertices.
28 We can check this using smaller prisims, with a triangular prism (3-sided) there are 6 vertices. WIth a rectangular prism (4-sided), there are 8 vertices. The number of vertices in a prism is always twice the number of sides.
A prism with 16 vertices must be an octagonal prism and so has 10 faces.
The shape you are describing is a triangular prism. It has an odd number of vertices (5), four of its faces are isosceles (two triangular and three rectangular faces), and it has an even number of edges (9). This configuration meets all the specified criteria.