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A regular hexagon has more than 4 lines of symmetry. Even number sided polygons that are regular and have more than 4 sides have more than 4 lines of symmetry. Circles have more than four lines of symmetry. Squares also have 4 lines of symmetry.
Regular polygons have lines of symmetry equal to the number of sides/angles that they possess so a hexagon would have 6 lines of symmetry. (: * * * * * However, the question is not about a polygon but a polyhedron! A prism with regual hexagonal bases has six lines of symmetry at the bases, but it also has a line of symmetry along the centre of its length. Furthermore, there are infinitely many lines of symmetry in the plane that divides it halfway along its length.
Yes, its diagonals make axes of symmetry. Also, you can rotate it 180° for symmetry.
A decagon need not have any lines of symmetry. It can also have 1 or 10 lines of symmetry.
almost all even number of sided polygons, regular has to be
A rhombus has two lines of symmetry. They are also called its diagonals. Suppose there is a rhombus ABCD AC and BD are its lines of symmetry.
A regular hexagon has more than 4 lines of symmetry. Even number sided polygons that are regular and have more than 4 sides have more than 4 lines of symmetry. Circles have more than four lines of symmetry. Squares also have 4 lines of symmetry.
The Japanese flag has four lines of symmetry. Two of them are a horizontal line halfway up the flag, and a vertical one halfway across the width. It also has two rotation lines of symmetry across the diagonals.
Regular polygons have lines of symmetry equal to the number of sides/angles that they possess so a hexagon would have 6 lines of symmetry. (: * * * * * However, the question is not about a polygon but a polyhedron! A prism with regual hexagonal bases has six lines of symmetry at the bases, but it also has a line of symmetry along the centre of its length. Furthermore, there are infinitely many lines of symmetry in the plane that divides it halfway along its length.
No, regular polygons with an even number of sides are also symmetrical.
Yes, its diagonals make axes of symmetry. Also, you can rotate it 180° for symmetry.
A decagon need not have any lines of symmetry. It can also have 1 or 10 lines of symmetry.
A tetrad has rotational symmetry of order 4. It also has no lines of symmetry. It is also known as a swastica.
almost all even number of sided polygons, regular has to be
It depends on the font. Let's assume the simplest form of the letter X, which is just the diagonals of a perfect square. In that case there are four: one vertical, one horizontal, and one along each of the diagonals. There's also technically a fourfold axis of rotational symmetry perpendicular to the page.
Yes. A circle has infinitely many lines of symmetry and it also has rotational symmetry of infinite order.
rhombus and rectangle (if they are not also a square). a square has 4 lines of symmetry