1 hexagonal prism = 18 edges.
35 hexagonal prisms = 18*35 = 630 edges. Simple!
1 hexagonal prism = 18 edges.
35 hexagonal prisms = 18*35 = 630 edges. Simple!
1 hexagonal prism = 18 edges.
35 hexagonal prisms = 18*35 = 630 edges. Simple!
1 hexagonal prism = 18 edges.
35 hexagonal prisms = 18*35 = 630 edges. Simple!
18 of them because an hexagonal prism has 18 edges
A prism with 30 edges is a hexagonal prism. In general, a prism is defined by its two parallel bases, which are polygons, and the number of edges is calculated as the sum of the edges of the two bases plus the edges connecting the corresponding vertices of the two bases. A hexagonal base has 6 edges, so a hexagonal prism has 6 (base) + 6 (top base) + 12 (connecting edges) = 24 edges. However, a prism with 30 edges would typically refer to a prism with a decagonal base (10 edges) since it would have 10 (bottom) + 10 (top) + 10 (connecting edges) = 30 edges.
To determine which objects are considered prisms, we need to identify those with two parallel, congruent bases connected by rectangular or parallelogram faces. Common examples of prisms include rectangular prisms, triangular prisms, and hexagonal prisms. If the objects you referred to fit this description, they would be classified as prisms. Please provide more specific details about the objects for a more accurate assessment.
An hexagonal prism would fit the given description
A prism with 21 edges would have a polygonal base that is a decagon (10 sides). Since a prism consists of two parallel bases and vertical edges connecting corresponding vertices, the total number of edges can be calculated as the sum of the edges of the two bases (10 + 10) and the number of vertical edges (10), resulting in 30 edges. However, since the question specifies 21 edges, this indicates an error, as no standard prism can have 21 edges. A correct example would be a prism with 6 edges (triangular base) or 12 edges (hexagonal base).
Yes. All prisms have edges. Edges are defined as where two faces meet. The base of the prism would have 6 edges since the base would be a hexagon. The second base (or the top) would also have 6 edges since it would have to be another hexagon. lastly, there would be 6 edges connecting the 6 vertices of the bases for a total of 18 edges.
12 edges.
18 of them because an hexagonal prism has 18 edges
That would be a hexagonal pyramid.
A pyramid with 18 edges would be called a nonagonal pyramid. A prism with 18 edges is called a hexagonal prism.
A prism with 30 edges is a hexagonal prism. In general, a prism is defined by its two parallel bases, which are polygons, and the number of edges is calculated as the sum of the edges of the two bases plus the edges connecting the corresponding vertices of the two bases. A hexagonal base has 6 edges, so a hexagonal prism has 6 (base) + 6 (top base) + 12 (connecting edges) = 24 edges. However, a prism with 30 edges would typically refer to a prism with a decagonal base (10 edges) since it would have 10 (bottom) + 10 (top) + 10 (connecting edges) = 30 edges.
An hexagonal prism would fit the given description
Hexagonal prisms cannot be regular. If you tried to make one it would end up being a hexagon since six equilateral triangles make a hexagon. Therefore, there is no surface area.
Edges = 3 x number of sides in end of prism For example, a hexagonal prism would have 3 x 6 = 18 edges since there are 6 sides to a hexagon.
A prism with 21 edges would have a polygonal base that is a decagon (10 sides). Since a prism consists of two parallel bases and vertical edges connecting corresponding vertices, the total number of edges can be calculated as the sum of the edges of the two bases (10 + 10) and the number of vertical edges (10), resulting in 30 edges. However, since the question specifies 21 edges, this indicates an error, as no standard prism can have 21 edges. A correct example would be a prism with 6 edges (triangular base) or 12 edges (hexagonal base).
since the base is a hexagon my guess if this has a name would be: hexagonal pyramid
Yes light can travel through prisms. At some points it would occur total internal reflection and at some points there would be refraction of light.