It could be a diagonal line of a polygon with more than 3 sides
Only a square and a rhombus will have all its diagonals bisecting vertices. In other shapes some - but not all - diagonals can bisect vertices.
The locus of the points equidistant from any two points is a straight line. In a square when the points are two opposite vertices this line will pass trough the other two vertices - extending the diagonal between those other two vertices outside the square.
I guess you mean "A line drawn between 2 vertices which are not next to each other?":The line is a diagonal.
A trapezium has 4 vertices, just like any other quadrilateral.
circles and octagon do not tessellate as they overlap each other or leave spaces between them.
Only a square and a rhombus will have all its diagonals bisecting vertices. In other shapes some - but not all - diagonals can bisect vertices.
Spheres are the only shapes that have no vertices. A sphere is a three-dimensional shape that is perfectly round, with all points on its surface equidistant from its center. Unlike other three-dimensional shapes such as cubes or pyramids, spheres do not have any corners or vertices where edges meet.
Unlike other shapes,a sphere has 0 faces,edges and vertices
A line drawn between two non-adjacent vertices in a graph or geometric shape is typically referred to as a diagonal. This line represents the shortest path connecting the two vertices, bypassing any intervening vertices or edges. The properties of this line, such as its length and direction, can be influenced by the overall structure of the shape or graph in which the vertices are located.
A diagonal
A diagonal.
Three-dimensional shapes, also known as 3D shapes, include several common types such as cubes, spheres, cylinders, cones, and pyramids. Other examples are rectangular prisms, tetrahedrons, and ellipsoids. Each of these shapes has distinct properties related to their faces, edges, and vertices.
To find the length of a line drawn between 2 vertices which are not next to each other, first draw a right triangle such that the line is the hypotenuse and the other two lines are drawn parallel to the x-axis and y-axis. Since the length of the other two lines are known, you can then calculate the hypotenuse to find the length of the line between the two vertices.
There is no such thing as a polyhedon hexagon.A regular hexagon will tessellate and so it forms a plane (2-D) surface, not a 3-D shape. A 3-D shape with six faces is a hexahedron and this could be a triangular bipyramid with 5 vertices, a parallelepiped with 8 vertices, a pentagonal pyramid with six vertices. There are also other possible shapes.
A diagonal.
Parelle
A diagonal.