Diverging mirrors and lenses always produce virtual images that are upright and reduced in size. These images are located on the same side as the object being observed.
Diverging mirrors and lenses always produce virtual images that are upright and smaller than the object being viewed.
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.
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 D. Diverging
No, convex mirrors cannot produce real images. They only produce virtual images.
Smaller
For apex learning people the answer is diverging
Diverging mirrors and lenses always produce virtual images that are upright and smaller than the object being viewed.
Concave and Diverging
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.
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 D. Diverging
No, convex mirrors cannot produce real images. They only produce virtual images.
virtual images
dont no dont care . Virtual diminished images. Look at one and see, most outside mirrors on cars are convex.
virtrual
A diverging lens can produce both reduced and magnified real images, depending on the position of the object relative to the lens and the focal length of the lens. However, the most common case is for a diverging lens to produce a reduced real image.