The quadrilaterals that always have both line symmetry and rotational symmetry are squares and rectangles. Squares have four lines of symmetry and rotational symmetry of order 4, while rectangles have two lines of symmetry and rotational symmetry of order 2. Other quadrilaterals, like rhombuses and parallelograms, may have one type of symmetry but not both. Thus, squares and rectangles are the only quadrilaterals that consistently possess both symmetries.
Both.
Only an equilateral triangle has rotational symmetry.
Yes. Any equilateral shape can have both rotational and line symmetry.
The heart does have both symmetries. it can be split through the middle and rotated 4 times to make rotational symmetry
3 of each
An equilateral triangle has both line symmetry and rotational symmetry. A non-equilateral isosceles triangle has line symmetry but not rotational symmetry. A scalene triangle has neither kind of symmetry.
Both.
The letters H and Z have both line symmetry and rotational symmetry
Only an equilateral triangle has rotational symmetry.
F has no symetry : line or rotational symmetry
Yes it does. A regular hexagon will have both rotational and reflectional symmetry about its centre.
Yes. Any equilateral shape can have both rotational and line symmetry.
It has both because it has 5 lines of symmetry and rotational symmetry to the order of 5
The heart does have both symmetries. it can be split through the middle and rotated 4 times to make rotational symmetry
it has both reflective and rotational symmetry
A circle and square.
Both Rotational and Line Symmetry