x= 5y+10
* * * * *
That looks like a mistaken merge!
A regular polygon with n sides has n lines of symmetry.
A regular polygon has a number of lines of symmetry equal to the number of its sides. For example, a regular pentagon has 5 lines of symmetry, while a regular hexagon has 6. Each line of symmetry divides the polygon into two congruent halves, reflecting the shape across the line.
A regular hexagon has six lines of symmetry.
if it's a regular hexagon it has 6 lines of symmetry
if it is a regular hexagon then it has 6 lines of symmetry
Has 6 lines of symmetry
it depends on what kind of shape it is. an equilateral triangle has 3 lines of symmetry, yet a sqaure has 4. (both shapes i mentioned are regular polygons)
A circle (infinitely many lines of symmetry), ellipse, rectangle, and all regular polygons.
It depends on how many sides that it has and whether of not it is regular (all the lines of the polygon are of equal length if it is a regular polygon). For regular polygons, the number of symmetry lines is the number of sides if number of sides is an odd number. Otherwise, the number of symmetry lines is double the number of sides. A square has 4 sides and 8 symmetry lines; a triangle has 3 sides and 3 symmetry lines.
A myriagon, which is a polygon with 10,000 sides, has 10,000 lines of symmetry. This is because a regular myriagon, like other regular polygons, has a line of symmetry for each vertex, as well as for each side, resulting in a total equal to the number of sides. Thus, every vertex and side contributes to the symmetry, leading to the conclusion that a regular myriagon has 10,000 lines of symmetry.
A regular polygon has a number of lines of symmetry equal to the number of its sides. For example, a regular pentagon has 5 lines of symmetry, while a regular hexagon has 6. Each line of symmetry divides the polygon into two congruent halves, reflecting the shape across the line.
A regular hexagon has six 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
A regular polygon with 22 sides has 22 lines of symmetry. Each line of symmetry passes through one vertex and the midpoint of the opposite side, or it can pass through the midpoints of two opposite sides. This property holds for all regular polygons, where the number of lines of symmetry is equal to the number of sides.
There are eight lines of symmetry.
It Has 4 Lines of symmetry.
A regular 6 sided hexagon has 6 lines of symmetry
It has 16 lines of symmetry.