Yes, it is possible to create a hexagon with exactly 2 lines of symmetry. An example of such a hexagon is a distorted hexagon where two opposite sides are equal in length and the other four sides are of different lengths. This arrangement allows for symmetry only along two axes that intersect at the center, while the other axes do not reflect the shape.
no you cant the closest would be a triangle soz
you make six lines
A hexagon has 6 sides, all equal to one another, which means it has symmetry. Simply fold the hexagon until it makes a triangle _ / \ \_/
no we cant make
The Pentagon has 5 lines of symmetry quite simply, actually. See, say you made one line straight through the pentagon at every vertex, right? Well, once you do that, you have 3 lines of symmetry in total, right? Now, say you make another 2 lines of symmetry, this time right through the center of each side. In total, this would make 5.
No. A pentagon can have 1 or 5 lines of symmetry.
no you cant the closest would be a triangle soz
Oh, dude, a regular hexagon has six sides, so it has six lines of symmetry. Each line of symmetry represents a different way you can rotate the hexagon and have it look the same. So, the order of rotational symmetry for a regular hexagon is 6. Like, it's symmetry, but make it hexagonal.
Some people make the mistake of thinking a square has 8 lines of symmetry, however it actually has 4 lines of symmetry. An equilateral triangle has 3 lines of symmetry.
you make six lines
A hexagon has 6 sides, all equal to one another, which means it has symmetry. Simply fold the hexagon until it makes a triangle _ / \ \_/
It would be infinite.
no we cant make
No.
No you cannot.
yes but make sure you look and make sure
None. A perpendicular line is two lines joined together to make a right angle(90degrees). A hexagon has no right angles so there are no perpendicular lines. None, by definition perpendicular means a 90 degree intersection of two lines. A hexagon's intersections are only 60 degrees.