8
For a regular hexagon I can find 6. For an irregular hexagon I can find fewer.
a rectangle has 2 axes of symmetry
It has 5 axes of symmetry
An isosceles triangle definitely has three axes of symmetry
A polygon need not have any axes of symmetry. It can have at most n axes where n is the number of sides that the polygon has.
A regular hexagon has 6 but a hexagon can have 0, 1 or 2 axes of symmetry. It cannot have 5. Not sure about 3 or 4.
3
For a regular hexagon I can find 6. For an irregular hexagon I can find fewer.
6
A hexagon can have rotational symmetry of order 1, 2, 3 or 6.It can have 0, 1, 2 or 6 axes of symmetry.
An irregular hexagon has no axes of symmetry. A regular hexagon, on the other hand, has 6 axes of symmetry: three lines joining the midpoints of opposite sides, and three lines joining opposite vertices.
A hexagon can have rotational symmetry of order 1, 2, 3 or 6.It can have 0, 1, 2 or 6 axes of symmetry.
a hexagon has 4 axes ofsymmetry.
There are infinitely many axes of symmetry in mathematics.
Yes, it is possible to create a hexagon with exactly 2 lines of symmetry. An example of such a hexagon is a distorted hexagon where two opposite sides are equal in length and the other four sides are of different lengths. This arrangement allows for symmetry only along two axes that intersect at the center, while the other axes do not reflect the shape.
a rectangle has 2 axes of symmetry
A square has 4 axes of symmetry.