To draw all the lines of symmetry for a star, first identify its geometric properties. For a regular star (like a five-pointed star), you can find lines of symmetry by drawing a line through each point of the star to the opposite point, and also through the center of the star to the midpoint of the opposite sides. In total, a regular five-pointed star has ten lines of symmetry: five through the points and five through the midpoints of the edges. For irregular stars, symmetry lines may vary based on their specific shape and structure.
Yes.
yes
All trapeziums have no lines of symmetry unless it is an isosceles trapezium which has one line of symmetry
All regular polygons do.
A trapezium.
they can but not all shirts have a line of symmetry for example an assymetrical shirt doesnt have a line of symmetry
Well, honey, a star can have multiple lines of symmetry depending on its shape. If you're talking about a traditional five-pointed star, then yes, it has five lines of symmetry. But if you're dealing with a different kind of star, like a six-pointed star, then it might have six lines of symmetry. Just remember, not all stars are created equal!
All regular shapes have a line of symmetry. But you can get rid of its line of symmetry by making it irregular (so the angles aren't the same).
Yes frogs have bilateral symmetry, meaning if you draw a line down the middle of the body, the parts will be the same on each side. Yes frogs have bilateral symmetry, meaning if you draw a line down the middle of the body, the parts will be the same on each side. Yes frogs have bilateral symmetry, meaning if you draw a line down the middle of the body, the parts will be the same on each side.
all letters have a line of symmetry
Shapes do not always have lines of symmetry. For example, if you have an irregular shape, it will not have a line of symmetry. I am quite certain though that all geometric shapes have a line of symmetry.
no
Not all 4 sided quadrilaterals have lines of symmetry.
yes it does. the line of symmetry goes down vertically from the top of the spoon all the way to the bottom
No. Asymmetric shapes do not have any lines (or planes) of symmetry.
Yes.
yes