Regular polygons.
Polygons that have only two lines of symmetry include the rectangle, the isosceles triangle, and the kite. A rectangle has vertical and horizontal lines of symmetry, while an isosceles triangle has a single line of symmetry through its vertex. A kite has two lines of symmetry that intersect at its center. Each of these shapes exhibits symmetry in a limited manner compared to more symmetric polygons like squares or equilateral triangles.
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.
A circle (infinitely many lines of symmetry), ellipse, rectangle, and all regular polygons.
Infinitely many. Polygons with 6 or more sides can have 3 pairs of parallel lines. Polygons with 7 or more sides can have a set of three parallel lines.
It could but not all of them .if this is not the answer you are looking for then i am so sorry. :( A polygon CAN have 5 lines of symmetry or more, such as a pentagon, hexagon or an octagon, etc. however, polygons like the square or triangle don't have 5 lines of 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.
Polygons are shapes that have three or more sides * * * * * There is more to a polygon. It is a closed, plane (flat) shape. The three or more sides must be straight lines.
Isosceles triangle, kite. -improvement: an isosceles triangle actually has three lines of symmetry, equal to the number of sides. It is easy to design irregular polygons with an odd number of sides that have just one line of symmetry. A parabola. Many more functions that are more complex - cardioid, for example.
No, a lemon does not have infinite lines of symmetry. It is generally asymmetrical, having a more oval or elliptical shape with one end typically being slightly pointed. While it may have some lines of symmetry depending on its orientation, these are limited compared to shapes like circles or regular polygons, which have infinite lines of symmetry.
In a regular polygon, the number of lines of symmetry is equal to the number of its sides. Each line of symmetry passes through a vertex and the midpoint of the opposite side, or it can bisect two opposite vertices. Additionally, the symmetry of a regular polygon is rotational, meaning it can be rotated around its center and still look the same at specific angles. As the number of sides increases, the lines of symmetry become more numerous and closely spaced, leading to a more circular appearance.
a square has more then three lines of symmetry, but I don't think a parrellelogram with only two parallel sides can
A right triangle doesn't necessarily have any lines of symmetry. But if it has, it can't have more than one.