Yes, an isosceles trapezoid does have rotational symmetry. An isosceles trapezoid is a quadrilateral with two parallel sides of equal length, which means it can be rotated around its center by certain angles (180 degrees, in this case) and still look the same. This is an example of rotational symmetry, where the shape can be rotated and still appear unchanged.
no
A trapezium does not have rotational symmetry.
Only if it is in the form of an isosceles trapezoid
Not normally but an isosceles trapezoid does.
A trapezoid does not have rotational symmetry. Rotational symmetry occurs when a shape can be rotated by a certain angle and still appear the same. In a trapezoid, the angles and side lengths are not equal, so rotating it will result in a different shape. Therefore, a trapezoid does not have rotational symmetry.
no
How about an isosceles trapezoid
An isosceles trapezoid has one rotational symmetry, which is a 180-degree rotation. This means that if you rotate the trapezoid by 180 degrees around its center, it will look the same as it did before the rotation. In addition to this, it has line symmetries, but regarding rotational symmetry specifically, there is only one.
A trapezoid has no rotational symmetry.
A trapezium does not have rotational symmetry.
An isosceles trapezoid can be.
Only if it is in the form of an isosceles trapezoid
A "pure" trapezoid (a pair of parallel sides and two random sides) does not have rotational symmetry. If it is a parallelogram then it has a 180 degree symmetry. And if the paralloelogram happens to be a square, you have 90 deg symmetry.
Not normally but an isosceles trapezoid does.
An isoceles triangle does not have rotational symmetry.
It has 1 line of symmetry.
There are none but if it is an isosceles trapezoid it will have 1 line of symmetry