A sphere has an infinite number of lines of symmetry. It can be split in any direction from any angle, and the resulting parts will be symmetrical.
Simply infinite.
A sphere has an infinite number of lines of symmetry
A ball (sphere) has an infinite number lines of symmetry.
Sphere
A circle or sphere has an infinite number of lines of symmetry.
it depends on what kind of 3D shape you want. example= A sphere has an infinite amount of symmetry lines
Yes, it has infinite numbers of lines of symmetry.
If you think of the sun as a slightly flattened sphere, then infinitely many lines of symmetry. If you go in for more details and include all the sun spots and flares and so on, probably none.If you think of the sun as a slightly flattened sphere, then infinitely many lines of symmetry. If you go in for more details and include all the sun spots and flares and so on, probably none.If you think of the sun as a slightly flattened sphere, then infinitely many lines of symmetry. If you go in for more details and include all the sun spots and flares and so on, probably none.If you think of the sun as a slightly flattened sphere, then infinitely many lines of symmetry. If you go in for more details and include all the sun spots and flares and so on, probably none.
circle, sphere, cylinder
Three dimensional shapes, generally, don't have lines of symmetry, but a circle has an infinite number is symmetry lines. 3D shapes also don't have rotational symmetry either, but a circle has an infinite number of that as well.
A sphere has one point of symmetry (at its very center) if one considers rotational symmetry in its three dimensions. If one is only considering reflectional symmetry, it would have an infinite number of lines of symmetry.
Circles and spheres both have infinite numbers of lines of symmetry
it has five lines of symmetry