7 faces, 7 vertices's, 12 edges.
The shape described with 6 faces, 12 edges, and 8 vertices is a hexagonal prism. A hexagonal prism consists of two hexagonal bases connected by rectangular lateral faces. Each hexagonal face has 6 edges, and the rectangular faces contribute to the total edge count, resulting in the specified 12 edges. The 8 vertices come from the two hexagonal bases, each having 6 vertices, with 2 vertices at each end of the prism.
A rectangular prism has 12 edges, 6 faces, and 8 vertices. The faces consist of three pairs of opposite rectangles, while the vertices are the points where the edges meet. Each edge connects two vertices and is shared by two faces.
No.No.No.No.
A polygonal prism has one face for each edge of the polygon, plus two faces for the ends. Example, a triangular prism has five faces.
A nonagonal prism has nine faces. It has a total of 18 vertices. A nonagonal prism also has 27 edges.
A rectangular prism has 12 edges, 6 faces, and 8 vertices. The faces consist of three pairs of opposite rectangles, while the vertices are the points where the edges meet. Each edge connects two vertices and is shared by two faces.
No.No.No.No.
It have six (as in hexagonal) around the edge, a top and bottom face and the hole in the middle with the thread. So it have 8 faces.
A polygonal prism has one face for each edge of the polygon, plus two faces for the ends. Example, a triangular prism has five faces.
A nonagonal prism has nine faces. It has a total of 18 vertices. A nonagonal prism also has 27 edges.
Technically, that's known as an "edge" of the prism.
An edge of any solid shape is the line where two faces meet.
right prism
That would be an edge.
The cone and the pyramid both have a base and a tip. The cone has a circular base and only 2 faces, 1 edge, and 1 vertex. The pyramid can have 4 verticies, 6 edges, and 4 faces; or 5 verticies, 8 edges, and 5 faces.
no. vertices are corners basically, and edges are edges. Eullers theorem Faces+Vertices=Edges+2.
That would be an edge.