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∙ 7y agoAn 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.
An object must be located between the focal point and the mirror for a converging mirror to produce a virtual image.
A converging mirror, such as a concave mirror, can produce real and inverted images for objects located beyond the focal point, or virtual and upright images for objects located between the focal point and the mirror. The size of the image can be larger or smaller than the object depending on its position relative to the mirror.
if the focal length is greater than the object distance from the lens
A converging mirror will not produce a real image if the object is placed between the focal point and the mirror. In this case, the mirror will produce a virtual image on the same side as the object.
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.
An object must be located between the focal point and the mirror for a converging mirror to produce a virtual image.
A converging mirror, such as a concave mirror, can produce real and inverted images for objects located beyond the focal point, or virtual and upright images for objects located between the focal point and the mirror. The size of the image can be larger or smaller than the object depending on its position relative to the mirror.
if the focal length is greater than the object distance from the lens
A converging mirror will not produce a real image if the object is placed between the focal point and the mirror. In this case, the mirror will produce a virtual image on the same side as the object.
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.
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 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 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 magnifying glass or a diverging lens can produce a virtual image. This type of image is formed when light rays diverge and appear to come from a point behind the optical device, rather than actually converging to a real point.
An image is formed where light rays meet at the focal point of a converging lens or mirror. This image can be real or virtual, depending on the position of the object relative to the focal point.
Converges (APEX)
Concave mirrors can produce virtual upright images that are smaller than the original object when the object is placed beyond the focal point of the mirror. This type of image is formed due to the behavior of light rays reflecting off the mirror surface and converging at a point.