The letter T for example
Not always. It depends where the line of symmetry is located.
Of course. A reflection of any symmetric shape about a line perpendicular to its axis of symmetry will be a rotation of 180 degrees around the point on its axis of symmetry which is halfway between the pre-image and the image.
A line of reflection and a line of symmetry both show the reverse of an image.
The "Line of Symmetry" is the imaginary line where you could fold the image or shape and have both halves match exactly one half is a reflection of the other
The line of reflection in symmetry is the imaginary line that travels down the line of symmetry. For example, in a square, the line of reflection would be the line down the center of the square, and the line down the diagonal of the square.
Not always. It depends where the line of symmetry is located.
Because linear symmetry defines a line such that the shape is unchanged when REFLECTED in that line.
Of course. A reflection of any symmetric shape about a line perpendicular to its axis of symmetry will be a rotation of 180 degrees around the point on its axis of symmetry which is halfway between the pre-image and the image.
No. You can reflect any shape about a line but if the resulting image is not the same as the original, that line is not a line of symmetry.
A line of reflection and a line of symmetry both show the reverse of an image.
The "Line of Symmetry" is the imaginary line where you could fold the image or shape and have both halves match exactly one half is a reflection of the other
The line of reflection in symmetry is the imaginary line that travels down the line of symmetry. For example, in a square, the line of reflection would be the line down the center of the square, and the line down the diagonal of the square.
A line of symmetry is usually within the object whereas a line of reflection need not be.
Line symmetry = Reflection symmetry. Point symmetry = Rotational symmetry.
A Line of Symmetry.
square
Reflection symmetry, reflectional symmetry, line symmetry, mirror symmetry, mirror-image symmetry, or bilateral symmetry is symmetry with respect to reflection