A cylinder would seem to fit the given description
cylinder
A cuboid
A tetrahedron is a triangular based pyramid that has 4 faces, 6 edges and 4 vertices.
3 faces: two plane and one curved,2 edgesno vertices.3 faces: two plane and one curved,2 edgesno vertices.3 faces: two plane and one curved,2 edgesno vertices.3 faces: two plane and one curved,2 edgesno vertices.
Faces-2 (1 flat face and 1 curved face), 1 curved edge, and 1 vertex.
A cone has one face - its base - and one edge but no vertices. Vertices only occur at the meeting of two straight surfaces.
It has 14 Faces, 24 Edges, and 12 Vertices
The cube have: -- six (6) faces -- twelve (12) edges -- zero (0) curved surfaces -- eight (8) vertices
0 edges 0 faces (faces are planar bounded by linear edges) 2 curved surfaces 1 vertex
triangular prism
The description given fits that of cones
There are two plane faces and a curved face, two edges and no vertices.
A cylinder has 2 surfaces (faces), 0 vertices, and 0 edges.
A tetrahedron is a triangular based pyramid that has 4 faces, 6 edges and 4 vertices.
3 faces: two plane and one curved,2 edgesno vertices.3 faces: two plane and one curved,2 edgesno vertices.3 faces: two plane and one curved,2 edgesno vertices.3 faces: two plane and one curved,2 edgesno vertices.
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.
Faces-2 (1 flat face and 1 curved face), 1 curved edge, and 1 vertex.
6 flat surfaces - known as faces, 12 edges 8 vertices.
The three parts are faces, vertices and edges. The faces are the flat surfaces, the edges are the lines that joint the corners which are called vertices.