The shape you are describing is a triangular prism. It has six vertices, nine edges, and five flat faces (two triangular faces and three rectangular faces). Additionally, it has no curved surfaces, as all its faces are flat.
There are two plane faces and a curved face, two edges and no vertices.
The cube have: -- six (6) faces -- twelve (12) edges -- zero (0) curved surfaces -- eight (8) vertices
A hemisphere as two faces (one curved and one plane), one edge and no vertices.
A cylinder has three faces: two circular bases and one curved lateral surface. It has two vertices at the ends of the circular bases, and it has no edges on the curved surface. Therefore, in total, a cylinder has 3 faces, 2 vertices, and 0 edges.
A sphere has no edges or edges but its face is globular.
There are two plane faces and a curved face, two edges and no vertices.
The cube have: -- six (6) faces -- twelve (12) edges -- zero (0) curved surfaces -- eight (8) vertices
Faces-2 (1 flat face and 1 curved face), 1 curved edge, and 1 vertex.
A hemisphere as two faces (one curved and one plane), one edge and no vertices.
A hemisphere as two faces (one curved and one plane), one edge and no vertices.
A sphere has no edges or edges but its face is globular.
23
0 edges 0 faces (faces are planar bounded by linear edges) 2 curved surfaces 1 vertex
A cube or a cuboid both would fit the given description both of which have 8 vertices, 12 edges and 6 faces.
Faces: 2 circular, 1 curved rectangular. Vertices (not vertexes!): None Edges: 2 circular.
A tube is a type of cylinder, which has two circular faces, one at each end. It also has three edges - two circular edges around the faces and one curved edge around the side. A tube has no vertices, as vertices are defined as the points where edges meet, and a tube's edges do not meet at any points.
Euler's definition do not apply to curved solids. faces must be polygons; they cannot be circles. using the conventional definitions of faces, edges and vertices, This question causes frustration for teachers and students. Euler's definitions of edges, faces and vertices only apply to polyhedra. Faces must be polygons, meaning comprised of all straight sides, edges must be straight, and vertices must arise from the meeting of straight edges. As such, a cylinder has no faces, no edges and no vertices, using the definitions as they apply to polyhedra. You need to create a different set of definitions and understandings to apply to solids with curved surfaces.