Paizza
Two.
Two.
Yes. A circle has infinitely many lines of symmetry and it also has rotational symmetry of infinite order.
A rectangle has two axes of symmetry and has rotational symmetry of order 2.
It have 4 axis of symmetry . Two Perpendiculars and two Diagonals
A general parallelogram has rotational symmetry of order two.
order two
Two.
Two.
Two.
It has rotational symmetry of order 2.
Yes. A circle has infinitely many lines of symmetry and it also has rotational symmetry of infinite order.
A rectangle has two axes of symmetry and has rotational symmetry of order 2.
Z S H and N
it has order two (180 degrees)
Yes. An ellipse (oval) has two lines of symmetry, but not a rotational symmetry. A parabola has one line and no rotation.
Oh, dude, an oval has an infinite number of lines of symmetry, so technically it has infinite rotational symmetry. But like, who's really gonna sit there and rotate an oval forever just to prove a point, right? So, yeah, infinite rotational symmetry for the win!