No matter how you turn a circle, it will always be in the same position, therefore circles have infinite amounts of lines of symmetry.
The 'center' of the circle is.
radial symmetry
The midpoint of symmetry of a circle is its center. A circle is symmetric around its center, meaning that for any point on the circumference, the point directly opposite to it (across the center) is also on the circumference. This property holds true for all points on the circle, illustrating its uniform symmetry.
Radial Symmetry .
There are 180 lines of symmetry in a circle.
The 'center' of the circle is.
It's diameter.
radial symmetry
The midpoint of symmetry of a circle is its center. A circle is symmetric around its center, meaning that for any point on the circumference, the point directly opposite to it (across the center) is also on the circumference. This property holds true for all points on the circle, illustrating its uniform symmetry.
Radial Symmetry .
A circle has an infinite number of lines of symmetry. As long as the line passes over the center point it cuts the circle in two identical halves.
If the central point of the straight line is placed exactly on the middle, and such central point has an axis, it will have a rotational symmetry.
A circle has an unlimited amount of symmetry lines, as long as the line passes through the middle point of the circle.
A circle has infinite lines of symmetry
No, although they can be lines of symmetry, they are not the same things. If a circle were to have its center at the point (1,1), the circle would have an infinite number of lines of symmetry, but none of them would be the x or y axis.
Infinite lines because a circle has infinite lines of symmetry.
One!!!! It is a radial line, from the centre point of the base/straight line to the midpoint of the circumference.