Yes, convex lens have this kind of property.
Convex lens create a virtual image when the object is placed at a distance of 0 to F of the lens (where F is the focal length of the lens). The resulting image is always magnified, virtual and erect.
When the object is placed outside the F, the image formed becomes diminished, real and inverted.
However, concave lens can only form virtual images.
Convex lenses form real images and concave lenses form virtual images. But there is one case in which convex lens also forms virtual images. This is when object is placed between Principal Focus "F" and Optical Centre "O"
A lens can produce both real and virtual images. Real images are formed when light rays actually converge at a point and can be projected onto a screen. Virtual images are formed when light rays appear to diverge from a point but do not actually converge, and they cannot be projected.
No, a concave lens usually produces virtual images. Real images are typically produced by convex lenses when the object is beyond the lens' focal point. Concave lenses diverge light rays and form virtual images that do not converge at a point.
Convex lenses can form both real and virtual images. Real images are formed when rays converge at a point after passing through the lens, while virtual images are formed when rays appear to diverge from a point behind the lens.
A converging lens produces a real or virtual image, depending on the location of the object with respect to the focal point. Real images are inverted and can be projected onto a screen, while virtual images are upright and cannot be projected.
Convex lens produces both real and virtual images. But concave lens produces only virtual images for real objects. If object is virtual then real image could be produced by a concave lens.
Convex lenses form real images and concave lenses form virtual images. But there is one case in which convex lens also forms virtual images. This is when object is placed between Principal Focus "F" and Optical Centre "O"
A lens can produce both real and virtual images. Real images are formed when light rays actually converge at a point and can be projected onto a screen. Virtual images are formed when light rays appear to diverge from a point but do not actually converge, and they cannot be projected.
No, a concave lens usually produces virtual images. Real images are typically produced by convex lenses when the object is beyond the lens' focal point. Concave lenses diverge light rays and form virtual images that do not converge at a point.
Convex(converging) lenses can form either real or virtual images.
Convex lenses can form both real and virtual images. Real images are formed when rays converge at a point after passing through the lens, while virtual images are formed when rays appear to diverge from a point behind the lens.
A converging lens produces a real or virtual image, depending on the location of the object with respect to the focal point. Real images are inverted and can be projected onto a screen, while virtual images are upright and cannot be projected.
A virtual image is formed by light rays that appear to diverge from a point behind a mirror or lens, while a real image is formed by light rays that converge at a point in front of a mirror or lens. Real images can be projected onto a screen, while virtual images cannot.
Converging lens is thicker at the center than at the edges and refracts light rays towards a focal point, forming real or virtual images. Diverging lens is thinner at the center and causes light rays to spread out, resulting in virtual images. The focal point of a diverging lens is on the same side as the object, unlike converging lens.
A diverging lens, typically a concave lens, primarily forms virtual images of real objects by spreading light rays apart. However, it can create a real image under specific conditions, such as when the object is placed in front of the lens at a distance less than its focal length. In this case, the light rays diverge and appear to originate from a point behind the lens, leading to a virtual image that cannot be projected on a screen. Thus, while diverging lenses predominantly produce virtual images, they do not form real images in the conventional sense.
A convex lens can form both real and virtual images depending on the position of the object relative to the lens. If the object is placed outside the focal length, the lens produces a real image that is inverted and can be projected onto a screen. Conversely, if the object is within the focal length, the lens creates a virtual image that is upright and cannot be projected.
No, a concave lens can produce both real and virtual images depending on the object location relative to the lens. If the object is located within the focal point of the concave lens, a virtual image will be produced. If the object is located beyond the focal point, a real image will be formed.