Yes. Some example of this are:
Rectangles (at least 2 lines of symmetry)
Squares (4 lines of symmetry)
Rhombuses (at least 2 lines of symmetry)
square
A quadrilateral can have between zero and four lines of symmetry, depending on its specific shape. For example, a square has four lines of symmetry, a rectangle has two, a rhombus has two, and an irregular quadrilateral typically has none. Thus, the number of lines of symmetry varies based on the properties of the quadrilateral in question.
Not at all. There are an infinite number of figures that have two lines of symmetry. For a start, an ellipse.
There are two quadrilaterals with 2 lines of symmetry. A rhombus and a rectangle (if they are not also a square)
i think it has four lines of symmetry
A four-sided quadrilateral having two lines of symmetry is a rectangle
A rectangle.
i think it has four lines of symmetry
square
A quadrilateral can have between zero and four lines of symmetry, depending on its specific shape. For example, a square has four lines of symmetry, a rectangle has two, a rhombus has two, and an irregular quadrilateral typically has none. Thus, the number of lines of symmetry varies based on the properties of the quadrilateral in question.
Not at all. There are an infinite number of figures that have two lines of symmetry. For a start, an ellipse.
Any polygon with an even number of sides can have two lines of symmetry, but it would have to be irregular.
There are two quadrilaterals with 2 lines of symmetry. A rhombus and a rectangle (if they are not also a square)
i think it has four lines of symmetry
A parallelogram.
A quadrilateral cannot have just 3 lines of symmetry. If it has three, then it must have 4 and is a square.
A square has.