Well, you could always count them. Also, the number of sides is always equal to the number of vertices.
any closed shape with 4 sides or more sides. The question does not specify only four vertices!
A shape with four sides and three vertices does not exist in Euclidean geometry. In Euclidean geometry, a shape must have the same number of sides as vertices. Therefore, a shape with four sides would have four vertices.
A cube.
a shape with 7 vertices
Well, you could always count them. Also, the number of sides is always equal to the number of vertices.
A pentagon has five sides and five vertices
A hexagon.
A geometric shape with 4 sides and 4 vertices is a 4-sided figure, a quadrilateral.
any closed shape with 4 sides or more sides. The question does not specify only four vertices!
4 sides, 4 vertices, 2 equal angles, 2 pairs of equal sides
A shape with four sides has four vertices and a shape with three sides has three vertices, so a shape with four sides has more vertices than a shape with three sides.
an isosceles triangle
A shape with four sides and three vertices does not exist in Euclidean geometry. In Euclidean geometry, a shape must have the same number of sides as vertices. Therefore, a shape with four sides would have four vertices.
A cube.
Vertices and angles are the same thing. Any polygon has an equal number of sides and vertices (and, therefore, angles).Vertices and angles are the same thing. Any polygon has an equal number of sides and vertices (and, therefore, angles).Vertices and angles are the same thing. Any polygon has an equal number of sides and vertices (and, therefore, angles).Vertices and angles are the same thing. Any polygon has an equal number of sides and vertices (and, therefore, angles).
Assuming that each vertex is used to connect exactly two sides, all two-dimensional shapes will have the same number of sides as vertices. So a shape with 4 sides will have 4 vertices and a shape with 3 sides will have 3 vertices. Think of a square (4 sides, 4 vertices) and a triangle (3 sides, 3 vertices).