Yes, there are infinite lines of symmetry in a circle.
A circle has infinite lines of symmetry, any line going through the center is a line for symmetry.
There are infinite lines of symmetry in a circle because its diameter can revolve inside it at any position.
A circle has lines of symmetry that are infinite
A circle has an infinite number of lines of symmetry. Any chord of the circle that passes through its center will be line of symmetry. Since there is an infinite number of chords, there is an infinite number of lines of symmetry.
A circle has an infinite number of lines of symmetry. Any chord of the circle that passes through its center will be a line of symmetry. And there are an infinite number of lines that can be drawn through the center of the circle, the length of which is equal to the diameter of the circle.
There's an infinite number of lines of symmetry in a circle.
A circle has infinite lines of symmetry
A circle has an infinite number of lines of symmetry. Any chord of the circle that passes through its center will be line of symmetry. And there are an infinite number of lines that can be drawn through the center of the circle.
Yes, a circle has lots of lines of symmetry, it never stops!
There are infinite lines of symmetry within a circle
I would think there would be an infinite number of lines of symmetry. Any line passing through the center of the circle, regardless of the angle will be a symmetry line.
There are an infinite number of lines of symmetry in a circle, as any diameter will be a line of symmetry and there are an infinite number of angle measure for that line to pass through.