circle
A circle, since it has an infinite number of lines of symmetry
It has at most one.
When referring to the figure and shape of "6", no it does not have any lines of symmetry.
no shape does! * * * * * Not true. A parallelogram has rotational symmetry of order 2, but no lines of symmetry.
A 2d shape with uncountable lines of symmetry is a circle.
Yes and its lines of symmetry are infinite
A circle or sphere has an infinite number of lines of symmetry.
It is a circle whose lines of symmetry are infinite
A circle, since it has an infinite number of lines of symmetry
A circle has an infinite number of lines of symmetry, corresponding to any of its diameter lines, to any arbitrary level of division (degrees, minutes, seconds).
It has at most one.
A watermelon typically has no lines of symmetry, as its irregular shape does not allow for any straight line to divide it into two equal halves. However, if the watermelon were perfectly spherical, it would have an infinite number of lines of symmetry passing through its center in all directions.
Not really, a line of symmetry is where the shape is identical on both halves. A circle has an infinite number of lines of symmetry. Any line passing through the circle's center is a line of symmetry.
It depends on what kind of shape you are asking about. A circle has an infinite number of lines of symmetry, all passing through the center. Regular shapes (triangle, square, rectangle, pentagon, etc.) have at least one. Irregular shapes tend to have no line of symmetry.
Presumin that the wheel is circular, the answer is infinity.Circles have an unlimited number of symmetry lines.
A circle is symmetric about ANY diameter. The number of possible diameters of the same circle is infinite. And on the same principle, a sphere will have lines of symmetry in every direction in 3 dimensions.
No.