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A square has 90° rotational symmetry.
A square has four lines of symmetry
A square by definition has lines of symmetry. Therefore a square cannot be drawn without any lines of symmetry.
A square has four lines of symmetry!
A square has rotational symmetry to the order of 4
It depends on the type of parallelogram:The classic generic-looking parallelogram, having no right angles, and having adjacent sides of unequal length, has no lines of symmetry (only point symmetry about the point of intersection of the diagonals).Special types of parallelograms are as follows:A square has 4 lines of symmetry: horizontal, vertical, and one containing each diagonal.A non-square rhombus has two lines of symmetry: one containing each diagonal.A non-square rectangle has two lines of symmetry: horizontal and vertical.
is a square a rational symmetry? is a square a rational symmetry?
A square has 4 lines of symmetry
a square has 4 lines of symmetry.
A square has 4 axes of symmetry.
A square has four lines of symmetry
A square has 90° rotational symmetry.
A square by definition has lines of symmetry. Therefore a square cannot be drawn without any lines of symmetry.
All squares are rectangle, but not all rectangles are square. The expected answer is "a square" ... A square has 4 lines of symmetry. A rectangle that is not a square has 2 lines of symmetry. However, the question is ambiguous. Since a square is a rectangle you can say that some rectangles have 4 lines of symmetry. A better question is, "Which has more lines of symmetry; a square, or a rectangle that is not a square?"
The square has 4 sides and has rotational symmetry of order 4.
A square has 4 lines of symmetry.
A square has rotational symmetry to the order of 4