A real image as well as a virtual image.
An object located beyond the focal point of a converging lens will produce a virtual image on the same side as the object. This virtual image will be upright, magnified, and appear to be located closer to the lens than the object itself.
A converging lens produces a real or virtual image, depending on the object's position relative to the focal point. A real image is formed when the rays actually converge at a point, while a virtual image is formed when the rays appear to converge from behind the lens.
if the focal length is greater than the object distance from the lens
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 converging lens will produce a collimated beam of light (parallel rays) with the lamp at the focal point. This happens because the lens refracts the light rays in a way that they become parallel as they exit the lens.
An object located beyond the focal point of a converging lens will produce a virtual image on the same side as the object. This virtual image will be upright, magnified, and appear to be located closer to the lens than the object itself.
A converging lens produces a real or virtual image, depending on the object's position relative to the focal point. A real image is formed when the rays actually converge at a point, while a virtual image is formed when the rays appear to converge from behind the lens.
A real object placed beyond the focal length of a converging lens will produce a real image. This occurs when the object distance is greater than the focal length of the lens.
convex lens(converging lens)
Inverted
if the focal length is greater than the object distance from the lens
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 converging lens will produce a collimated beam of light (parallel rays) with the lamp at the focal point. This happens because the lens refracts the light rays in a way that they become parallel as they exit the lens.
A converging lens produces a real image on a screen when the object is placed beyond the lens's focal point. The image is inverted and can be larger or smaller, depending on the distance between the object and the lens.
Never. Since the rays coming from a real object will always be diverging. The action of a concave lens is diverging action. Hence the already diverged rays will be dirverged further. Hence no chance of convergence. Only converging rays would form a real image. Hence the answer, NEVER.
The location and size of the image produced by a converging lens are determined by the object distance and the focal length of the lens. The image is formed on the opposite side of the lens as the object when the object is beyond the focal point (real image), and the size of the image depends on the object distance and focal length according to the lens formula.
You are thinking of a lens. If it is to form an image you need a convex lens, also called a converging lens.