A figure with three lines of symmetry is known as an equilateral triangle. An equilateral triangle has three equal sides and three equal angles, each measuring 60 degrees. The lines of symmetry of an equilateral triangle pass through the vertex of each angle and bisect the opposite side, creating three lines of symmetry that divide the triangle into three congruent smaller triangles.
A square has exactly four lines of symmetry.
yes
If the figure is an image of a real heart, then there are no lines of symmetry. If it is an idealised heart, then 1.
Equilateral Triangles (3 lines of symmetry)Rectangles (at least 2 lines of symmetry)Squares (4 lines of symmetry)Rhombuses (at least 2 lines of symmetry)Any regular polygon (at least 5 lines of symmetry)
A regular hexagon has six lines of symmetry. Lines of symmetry are imaginary lines where you can fold a figure or image and both halves are identical matches.
An equilateral triangle has exactly three lines of symmetry. It is the only shape that contains exactly three lines of symmetry.
A hexagon, for example, has six lines of symmetry. Three of them go to opposite vertices, and three go to opposite sides.
a circle has infiniti lines of symmetry
A square has exactly four lines of symmetry.
yes
a polygon
If the figure is an image of a real heart, then there are no lines of symmetry. If it is an idealised heart, then 1.
Rotational symmetry refers to symmetry of the figure when it is rotated about a single point in the same plane. Lines of symmetry apply to reflections. You do not have lines of rotational symmetry.
Equilateral Triangles (3 lines of symmetry)Rectangles (at least 2 lines of symmetry)Squares (4 lines of symmetry)Rhombuses (at least 2 lines of symmetry)Any regular polygon (at least 5 lines of symmetry)
An equilateral triangle has 3 lines of symmetry
circle
A regular hexagon has six lines of symmetry. Lines of symmetry are imaginary lines where you can fold a figure or image and both halves are identical matches.