The light rays that leave a mirror are called reflected rays. They are the result of light bouncing off the mirror's surface at an equal angle to the incident angle.
The location where light rays meet after reflecting from a concave mirror is called the focal point.
If several light rays enter a concave parabolic mirror parallel to each other andto the axis of the mirror, then they'll all converge at the focus of the mirror.If they enter the mirror from a variety of directions, then there's no telling whetherthey might intersect, or where.
Light rays reflect when they hit a concave mirror. The parallel rays of light converge at the focal point after reflection.
The reflection that you see in a mirror is called a virtual image. This virtual image appears to be behind the mirror at the same distance as the object is in front of the mirror. It is formed when light rays reflect off the mirror surface and converge at a point, creating the illusion of an image.
A convex mirror is called a diverging mirror because it causes light rays that hit it to diverge or spread out. This results in the image formed by the mirror appearing smaller and located behind the mirror compared to the actual object.
The convex mirror diverges light rays, so if you draw the reflected rays in front of the mirror and continue drawing them at the back of the mirror the virtual light rays (at the back of the mirror) will join. This point is called a Virtual Focus Point.
The location where light rays meet after reflecting from a concave mirror is called the focal point.
A concave mirror will diverge light rays if they are incident from the object beyond the focal point. This type of mirror causes light rays to spread apart after reflection, creating a virtual image that appears behind the mirror.
light rays
it will be called reflection
If several light rays enter a concave parabolic mirror parallel to each other andto the axis of the mirror, then they'll all converge at the focus of the mirror.If they enter the mirror from a variety of directions, then there's no telling whetherthey might intersect, or where.
Light rays reflect when they hit a concave mirror. The parallel rays of light converge at the focal point after reflection.
The reflection that you see in a mirror is called a virtual image. This virtual image appears to be behind the mirror at the same distance as the object is in front of the mirror. It is formed when light rays reflect off the mirror surface and converge at a point, creating the illusion of an image.
A convex mirror is called a diverging mirror because it causes light rays that hit it to diverge or spread out. This results in the image formed by the mirror appearing smaller and located behind the mirror compared to the actual object.
A normal mirror is typically referred to as a flat mirror, which reflects light rays without distorting the image or changing the size of objects.
The point at which rays of light converge or appear to converge after being reflected or refracted by a mirror or lens is called the focal point.
concave mirror and convex lens can be used to focus light rays. they are also called converging mirror and lens respectively. They focus the light at a distance of its focal length.