The opposite sides are parallel
There is no such thing. A hexagon is a two dimensional figure. A three dimensional figure with six vertices is an octahedron.
A hexagon has six sides, each of which is a rhombus when divided into two congruent triangles. Therefore, a hexagon can be divided into six rhombuses. If we are looking to fit three rhombuses into a hexagon, we can arrange them in a way that each rhombus shares a side with two other rhombuses, forming a tessellation pattern within the hexagon.
If it's a 'regular' hexagon, then it has three pairs of parallel lines. If the hexagon isn't 'regular', then it's not possible to answer the question with the information given in it.
A HEXAGON. Opposite sides of a regular hexagon are parallel. There being three sets set at different angles.
The opposite sides are parallel
If the hexagon is regular, there are three sets.
It has 6 sides and 6 interior angles that add up to 720 degrees
It only takes to diamonds to form a hexagon, but three if it is a regular hexagon.
A hexagon have three diamonds. Two perfect diamonds attach together and the third diamond cut into half to create a hexagon. I know it can be a bit confusing but that is the logic of have three diamonds in a hexagon.
A hexagon is a closed 2-dimensional shape bounded by six straight sides. It has six vertices and its interior angles sum to 4*pi radians (720 degrees).
There is no such thing. A hexagon is a two dimensional figure. A three dimensional figure with six vertices is an octahedron.
A regular hexagon has three pairs of parallel sides. An irregular hexagon can have two, one or none.
A hexagon can have multiple pairs of parallel lines depending on its orientation. In a regular hexagon, there are three pairs of opposite sides that are parallel to each other. Therefore, there are a total of three distinct pairs of parallel lines in a regular hexagon.
A hexagon has six sides, each of which is a rhombus when divided into two congruent triangles. Therefore, a hexagon can be divided into six rhombuses. If we are looking to fit three rhombuses into a hexagon, we can arrange them in a way that each rhombus shares a side with two other rhombuses, forming a tessellation pattern within the hexagon.
it honestly is three
A hexagon (6 sides) has three sets of parallel sides.