Convex lenses.
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.
Images are reflected in a mirror due to the law of reflection, where the angle of incidence equals the angle of reflection. In lenses, images are formed due to the refraction of light as it passes through the lens, resulting in either real or virtual images depending on the type of lens and the position of the object.
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.
Concave lenses produce virtual, upright, and smaller images of objects placed beyond their focal point. These images are formed on the same side as the object, making them virtual in nature.
Mirrors can reflect light rays, changing their direction without altering their wavelengths. Lenses can refract light rays, bending them as they pass through the lens and converging or diverging them to form images. Mirrors can create virtual or real images depending on the curvature, while lenses can produce real, virtual, upright, or inverted images based on the lens type and object distance.
Camera lenses that enlarge distant images are normally known as long focus lenses or telephoto lenses. A few specialist lenses use mirrors as well as glass and are frequently referred to as mirror lenses.
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.
Images are reflected in a mirror due to the law of reflection, where the angle of incidence equals the angle of reflection. In lenses, images are formed due to the refraction of light as it passes through the lens, resulting in either real or virtual images depending on the type of lens and the position of the object.
The enlarged images produced by a microscope are formed by the interaction of the light waves with the lens system of the microscope. The lenses in the microscope help to magnify and focus the light waves passing through the sample, which then project an enlarged image onto the eyepiece or camera.
A Concave mirror.
Not on their own.
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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.
Lenses are used to magnify images in a light microscope. These lenses include the objective lens and the eyepiece lens. By adjusting the focus of these lenses, the magnification of the specimen can be increased for detailed observation.
Concave lenses produce virtual, upright, and smaller images of objects placed beyond their focal point. These images are formed on the same side as the object, making them virtual in nature.
An instrument that uses a combination of lenses to produce enlarged images of tiny objects is a microscope.
An instrument that uses a combination of lenses to produce enlarged images of tiny objects is a microscope.