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.
2 lines of symmetry
A nephroid has 2 lines of symmetry.
A parallelagram can be a square, which has four lines of symmetry or a rectangle which has two lines of symmetry but the generic parallelagram has zero lines of symmetry
A decagon need not have any lines of symmetry. It can also have 1 or 10 lines of symmetry.
5 lines
2 lines of symmetry
A nephroid has 2 lines of symmetry.
it has five lines of symmetry
Equilateral Triangles (3 lines of symmetry)Rectangles (at least 2 lines of symmetry)Squares (4 lines of symmetry)Rhombuses (at least 2 lines of symmetry)Any regular polygon (at least 5 lines of symmetry)
it has no lines of symmetry
A parallelagram can be a square, which has four lines of symmetry or a rectangle which has two lines of symmetry but the generic parallelagram has zero lines of symmetry
There is no such thing as 8 lines of symmetry. A circle, for example, has infinitely many lines of symmetry.
A slice of lemon displays radial symmetry. This type of symmetry is typically seen in jellyfish and sea anemones.
A decagon need not have any lines of symmetry. It can also have 1 or 10 lines of symmetry.
5 lines
Lines of symmetry are 2 dimensional. Planes of symmetry are 3D.
10 lines of symmetry