A concave lens and a convex lens are what you're looking for. / | ∙ \
A concave mirror forms a magnified image when the object is placed beyond the focal point of the mirror.
inverted image for eg take your spoon and look in it
Yes, a concave mirror has a focal point. Light rays parallel to the mirror's axis converge at the focal point after reflecting off the mirror.
The focal point of a convex mirror is located behind the mirror, which means it is a virtual focal point. Light rays that are parallel to the mirror's principal axis will appear to diverge from the virtual focal point after reflection.
The distance from the center of a mirror to the focal point is called the focal length.
The distance from the center of a mirror to the focal point is called the focal length.
The distance from the center of a mirror to the focal point is equal to the focal length of the mirror. This distance is half the radius of curvature of the mirror.
The focal point of a mirror is the point where parallel rays of light converge or appear to diverge after reflecting off the mirror. The position of the focal point determines the type of reflection produced by the mirror.
The focal point of a convex mirror is located behind the mirror. It is the point where parallel light rays appear to converge after reflecting off the mirror's surface.
The focal point of a concave mirror is the point where parallel rays of light converge after reflecting off the mirror. It is located halfway between the mirror's surface and its center of curvature. This focal point is an important property that determines the mirror's ability to form images.
The term that defines the distance from the focal point to either a lens or a mirror is called the focal length.
In a concave mirror, an image is created when light rays that strike the mirror are reflected and converge to a focal point in front of the mirror. This forms either a real or virtual image depending on the position of the object relative to the focal point. The image can be magnified or diminished based on the distance of the object from the mirror.