No
No. All hexagons are polygons.
All six-sided two dimensional figures are hexagons.
No.
Maybe its just like that but not all footballs are with hexagons EG=jabulani
No, they are not.
no
yes brv all hexagons are parrell because each side has an opposite point making it parrel.
An exagon is not a commonly known shape. It may possibly be a misspelling or a rare geometric term. Assuming you meant "hexagons", here are some properties of hexagons: Six sides: Hexagons have six straight sides. Six angles: Hexagons have six interior angles, each measuring 120 degrees, making the sum of their angles 720 degrees. Regular or irregular: Hexagons can be regular, with all sides and angles equal, or irregular, with different side lengths and/or angles. Convex or concave: Hexagons can be convex, where all interior angles are less than 180 degrees, or concave, where at least one interior angle is greater than 180 degrees. Symmetry: Regular hexagons possess rotational symmetry of order 6, meaning they can be rotated by multiples of 60 degrees and still appear the same. Diagonals: Hexagons have nine diagonals (lines connecting non-adjacent vertices). Tessellation: Hexagons are an efficient shape for tessellating (covering a plane with no gaps or overlaps) in combination with other hexagons. Symmetrical division: By connecting some of its diagonals, a hexagon can be divided into three congruent parallelograms or six congruent triangles.
how many vertices does 3 hexagons and 8 rectangles have all together
Hexagons are a subcategory of polygons because they are defined as six-sided polygons. Polygons are flat, two-dimensional shapes with straight sides, and they can have any number of sides. Since hexagons meet the criteria of having straight edges and being enclosed, they fit within the broader category of polygons. Thus, all hexagons are polygons, but not all polygons are hexagons.
In geometry, certain shapes have diagonals that act as lines of symmetry. Specifically, regular polygons with an even number of sides, such as squares and hexagons, have diagonals that can serve as lines of symmetry. Additionally, rectangles and some other symmetrical quadrilaterals also exhibit this property. However, not all shapes have this characteristic; it is primarily found in shapes with specific symmetrical properties.
Symmetrical. All mammals and, indeed, all vertebrates, have bilateral symmetry.