Convex lenses form real images because they converge light rays. When light rays pass through a convex lens, they bend inward and meet at a point called the focal point on the opposite side of the lens. This convergence of light rays at a point beyond the lens creates a real image.
Convex lenses can form real images. When light rays converge after passing through a convex lens, they form a real image that can be projected onto a screen.
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.
Some optical devices that can form real images include concave lenses, convex lenses, and curved mirrors. These devices can focus light rays to create a real image that can be projected onto a screen.
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 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"
Convex lenses can form real images. When light rays converge after passing through a convex lens, they form a real image that can be projected onto a screen.
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.
Some optical devices that can form real images include concave lenses, convex lenses, and curved mirrors. These devices can focus light rays to create a real image that can be projected onto a screen.
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 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"
Inverted or upright.
Convex lenses can only make real images because they converge light rays that pass through them. This convergence causes the light rays to meet at a point beyond the lens, creating a focused image. In contrast, concave lenses diverge light rays and cannot create a real image.
Lenses with thick centers and thin edges are called convex lenses. They converge light rays towards a focal point, which allows them to focus light and produce real images.
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A convex lens is more like a concave mirror in the way it produces images. A convex lens converges light rays to form real or virtual images, much like how a concave mirror can do the same by reflecting light. Both convex lenses and concave mirrors can produce both real and virtual images depending on the object's position relative to the lens or mirror.