False
The SALT rule for a diverging mirror is that the image formed is always virtual, upright, and reduced in size compared to the object.
A converging lens produces a virtual image that is upright and enlarged, while a diverging lens produces a virtual image that is upright and reduced in size. Additionally, the converging lens forms the virtual image on the same side as the object, while the diverging lens forms it on the opposite side.
A diverging lens can only produce a virtual image, because the light passing through a diverging lens never converges to a point. The virtual image produced by a diverging lens is always right-side-up and smaller than the original object. The image and the object viewed are always on the same side of the lens. Diverging lenses are used as viewfinders in cameras.
Diverging lenses produce virtual, upright, and diminished images for all object positions. The virtual image is located on the same side of the lens as the object and is always reduced in size. This is due to the diverging nature of the lens, which causes light rays to spread out.
A diverging lens will produce a virtual image that is upright, reduced in size, and located on the same side as the object. The image will also be formed by extending the refracted rays backwards.
The SALT rule for a diverging mirror is that the image formed is always virtual, upright, and reduced in size compared to the object.
A converging lens produces a virtual image that is upright and enlarged, while a diverging lens produces a virtual image that is upright and reduced in size. Additionally, the converging lens forms the virtual image on the same side as the object, while the diverging lens forms it on the opposite side.
A diverging lens can only produce a virtual image, because the light passing through a diverging lens never converges to a point. The virtual image produced by a diverging lens is always right-side-up and smaller than the original object. The image and the object viewed are always on the same side of the lens. Diverging lenses are used as viewfinders in cameras.
Diverging lenses produce virtual, upright, and diminished images for all object positions. The virtual image is located on the same side of the lens as the object and is always reduced in size. This is due to the diverging nature of the lens, which causes light rays to spread out.
Concave lens (diverging) produces an upright image that is virtual. Although to create a real upright image would require 2 convex (converging) lens with a distance of their respective focal lengths between them.
A diverging lens will produce a virtual image that is upright, reduced in size, and located on the same side as the object. The image will also be formed by extending the refracted rays backwards.
A single diverging lens always produces a virtual image. This is because the light rays that pass through the lens appear to diverge as they are traced back on the same side as the object, making it impossible for them to converge to form a real image on a screen.
In converging mirrors (such as concave mirrors), the images formed can be real or virtual, depending on the object distance. The image is typically magnified and can be either upright or inverted. In diverging mirrors (such as convex mirrors), the image is always virtual, upright, and reduced in size.
A diverging lens can produce several types of images, depending on the location of the object relative to the lens. Typically, a diverging lens will produce a virtual, upright, and reduced image for objects placed beyond the lens' focal point.
No, a diverging lens will always form a virtual image. This is because the light rays diverge after passing through the lens, preventing them from actually converging to a real focal point where an image could be formed.
No, a diverging lens cannot form a real image of a real object. Instead, it always produces a virtual image that is upright and located on the same side of the lens as the object. This occurs because the light rays diverge after passing through the lens, and they appear to originate from a point behind the lens.
Image formed by a concave lens or a diverging lens is virtual,upright and smaller than the object.It is used by short sighted people.