A square, hexagon
they can but not all shirts have a line of symmetry for example an assymetrical shirt doesnt have a line of symmetry
all letters have a line of symmetry
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
Many figures. For example, an ellipse.
A square, hexagon
they can but not all shirts have a line of symmetry for example an assymetrical shirt doesnt have a line of symmetry
A figure that has matching parts when divided by a line is said to have a line of symmetry. These figures are also called symmetrical and their center of gravity lies along the line of symmetry.
none of them. they are all symetrical
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).
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.
all letters have a line of symmetry
A line of symmetry divides a figure into two matching halves.
z does not have a line of symmetry. z does not have a line of symmetry. z does not have a line of symmetry. z does not have a line of symmetry.
Stand the mirror perpendicular to the figure. When it is positioned on the line of symmetry, the image in the mirror should be the same as the original image. However, this only works with your line of sight being the correct plane.
Line symmetry = Reflection symmetry. Point symmetry = Rotational symmetry.