All of them have rotational symmetry because all the sides and angles have to be the same in order for the polygon to be a regular polygon
An equilateral triangle, and all regular polygons with 3n sides.
Oh, dude, a regular hexagon has six sides, so it has six lines of symmetry. Each line of symmetry represents a different way you can rotate the hexagon and have it look the same. So, the order of rotational symmetry for a regular hexagon is 6. Like, it's symmetry, but make it hexagonal.
No, all regular poygons are symmetrical. Ones with an odd number of sides have rotational symmetry.
yall get on my nerves
Yes. Any even sided figure will have a rotational symmetry. Yes. If it is a regular shape such as a square, hexagon or octagon (equilateral and equiangular) then the rotational symmetry is the same as the number of sides. Rotational symmetry is basically if the shape is rotated, is it exactly the same as it was before. A hexagon can be rotated 6 times and still be the same without actually being in the the same postition, so a hexagon has a rotational symmetry of 6.
no
All regular polygons do.
An equilateral triangle, and all regular polygons with 3n sides.
Yes.
A regular nonagon with 9 sides has a rotational symmetry of 9.
Yes, a regular pentagon has rotational symmetry.
As the name suggests, they are polygons that have one or more lines of symmetry or rotational symmetry of order two or more. A symmetric polygon is not the same as a regular polygon.
Oh, dude, a regular hexagon has six sides, so it has six lines of symmetry. Each line of symmetry represents a different way you can rotate the hexagon and have it look the same. So, the order of rotational symmetry for a regular hexagon is 6. Like, it's symmetry, but make it hexagonal.
If it is a regular octagon then it has rotational symmetry to the order of 8
Regular polygons.
A line segment would have rotational symmetry.
It has both because it has 5 lines of symmetry and rotational symmetry to the order of 5