Any shape with a rotational symmetry of order 2 or more.
Rotational symmetry refers to symmetry of the figure when it is rotated about a single point in the same plane. Lines of symmetry apply to reflections. You do not have lines of rotational symmetry.
No. A square is a plane figure and conventionally for plane figures symmetry is considered in terms of rotation about a point or an axis (in the plane of the figure) but not a plane outside the plane of the square.
Rotation Symmetry La Simetria de Rotation Symetrie de Rotation
Yes it does. As long as it has a symmetry without rotation. If you do the rotation either way it does have symmetry. :)
To find the smallest angle of rotational symmetry for a figure, divide 360 degrees by the number of rotational symmetries of the figure. The result will give you the smallest angle of rotational symmetry.
Yes. An ellipse (oval) has two lines of symmetry, but not a rotational symmetry. A parabola has one line and no rotation.
Any shape with a rotational symmetry of order 2 or more.
flip a nickel and count your potatoes
Rotational symmetry refers to symmetry of the figure when it is rotated about a single point in the same plane. Lines of symmetry apply to reflections. You do not have lines of rotational symmetry.
A figure has rotational symmetry when it can rotate onto itself in less than a full rotation.
No. A square is a plane figure and conventionally for plane figures symmetry is considered in terms of rotation about a point or an axis (in the plane of the figure) but not a plane outside the plane of the square.
If you mean "Does it have a rotational symmetry", the answer is "Yes." there is a 180 degree rotational symmetry.
Rotation Symmetry La Simetria de Rotation Symetrie de Rotation
A diamond has two rotation symmetry. It is possible to have a diamond that does have four of rotation symmetry.
Yes it does. As long as it has a symmetry without rotation. If you do the rotation either way it does have symmetry. :)
rotation symmetry of a parallelogram Sequence