yes, in fact it can have 6 rotational symmetries.
An ellipse has rotational symmetry of order 2.
Rotational symmetry of order 2. Reflection symmetry about the perpendicular bisectors of the sides.
The fraction of 2 hexagons and 1 trapezoid would be represented as 2/3.
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A parallelogram has rotational symmetry of order 2.
An ellipse has rotational symmetry of order 2.
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A decagon can have rotational symmetries of order 1, 2, 5 or 10.
Parallelograms: 2-fold Square: 4-fold n-fold symmetries refer to rotational symmetries. Consequently, any symmetries about axes that these and other quadrilaterals may have are not relevant to this question.
Rotational symmetry of order 2. Reflection symmetry about the perpendicular bisectors of the sides.
I believe that it is 0, 1 or 6 lines of symmetry and rotational symmetries of order 1, 2, 3 or 6
A cuboid has rotational symmetries of order 2 around each of the three axes going through a pair of opposite faces.
a figure that has 10 sides* * * * *It is a plane figure, bounded by ten straightlines, which meet in pairs at ten vertices.
The fraction of 2 hexagons and 1 trapezoid would be represented as 2/3.
2 hexagons and 1 half hexagon, equals 2.5 as a fraction (in decimal form).
A line has rotational symmetry of order 2.
Rotational symmetry means it will look the same after being rotated a certain amount. Let's assume that you mean a regular octagon where the sides are all equal in length and the angles are all the same (135 degrees). With such an octagon, if you rotate it one turn to the right (that's 45 degrees), it will look just the same. Rotate another 45° and it is still the same. You can do this 8 times so we say that a regular octagon has an order of rotational symmetry of 8.