No it's not possible. The triangle with the most lines of symmetry is Isosceles triangle and that has 3 lines of symmetry.
Unless you draw on the back, but that isn't correct.
No because the maximum lines of symmetry a triangle can have is 3 as an equilateral triangle and 1 as an isosceles triangle otherwise a triangle has no lines of symmetry.
If you are talking about a triangle it has two. Squares have four.
If you think about it youwill know.But a Square has four lines of symmetry.
A square has four lines of symmetry
i think it has four lines of symmetry
No because the maximum lines of symmetry a triangle can have is 3 as an equilateral triangle and 1 as an isosceles triangle otherwise a triangle has no lines of symmetry.
If you are talking about a triangle it has two. Squares have four.
If you think about it youwill know.But a Square has four lines of symmetry.
A square has exactly four lines of symmetry.
it has five lines of symmetry
A square has four lines of symmetry
i think it has four lines of symmetry
A hexagon has 6 lines of symetry and a dodecagon has 12. The number of sides equal the number of ines of symetry
This varies according to the polygon. A polygon is any 2D closed shape with three or more straight sides. Therefore, a polygon such as a square will have four lines of symmetry, but an irregular hexagon may have several or none. Even a triangle can have between zero and three lines of symmetry, depending on the type of triangle it is.
It means 4 lines of symmetry as for example a square has 4 lines of symmetry
A parallelagram can be a square, which has four lines of symmetry or a rectangle which has two lines of symmetry but the generic parallelagram has zero lines of symmetry
Yes, both triangles and squares have lines of symmetry and rotational symmetry. An equilateral triangle has three lines of symmetry and a rotational symmetry of order 3, meaning it can be rotated by 120 degrees and still look the same. A square has four lines of symmetry and a rotational symmetry of order 4, allowing it to be rotated by 90 degrees and still appear unchanged. Other types of triangles and quadrilaterals may have different numbers of symmetries based on their specific shapes.