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it makes image smaller than the object
In convex lens, the object beyond 2f is;image between2f and f.inverted image.smaller than the object.real image.in concave lens, the object beyond 2f is;smaller than that of the objecterectvirtual image
A concave lens (biconcave) forms images that are upright and smaller than the actual object. It refracts light rays away from the normal. The reflected light rays diverge.
If the Object you are 'focused' on stays in the same relative position to the lens, then the image will appear SMALLER on the Focal Plane. For example, the image using a 50mm lens will be LARGER than using a 28mm lens.
A diverging lens can only produce a virtual image, because the light passing through a diverging lens never converges to a point. The virtual image produced by a diverging lens is always right-side-up and smaller than the original object. The image and the object viewed are always on the same side of the lens. Diverging lenses are used as viewfinders in cameras.
it makes image smaller than the object
In convex lens, the object beyond 2f is;image between2f and f.inverted image.smaller than the object.real image.in concave lens, the object beyond 2f is;smaller than that of the objecterectvirtual image
When you take a photograph of an object, light from the object travels to the camera and is refracted by the lens, forming an image on the film. The image on the film is a real image because light rays actually meet there. The image is smaller than the object, because the object is a lot further away than the focal length of the lens and the image is inverted but the camera flips the image so that we see it the right way up.
image formed by the concave lens will be erect , virtual and smaller than the size of object.
A concave lens (biconcave) forms images that are upright and smaller than the actual object. It refracts light rays away from the normal. The reflected light rays diverge.
when an object is brought closer to the lens of a camera it gets smaller so that we could capture it properly. such lenses in a camera are conclave.
If the Object you are 'focused' on stays in the same relative position to the lens, then the image will appear SMALLER on the Focal Plane. For example, the image using a 50mm lens will be LARGER than using a 28mm lens.
A diverging lens can only produce a virtual image, because the light passing through a diverging lens never converges to a point. The virtual image produced by a diverging lens is always right-side-up and smaller than the original object. The image and the object viewed are always on the same side of the lens. Diverging lenses are used as viewfinders in cameras.
The image produced is a real image if the object is located at infinity and the lens is a convex lens. The produced image can actually be placed on a screen and photographed.
The image depends on the distance the object is from the lens.
For a convex lens the focal point is the transition point between getting a real image and a virtual image. If the object is at a greater distance then F you get a real image. If the object is closer to the lens then F you get a virtual image. If the object is located at F the light rays from the object leave the lens parallel and never form any kind of image.
The object- and image-points of a particular lens are described as conjugate. The object point, or the point at which the image is taken from, and the image point, the image itself, are able to be flipped perfectly, as if the object is placed where the image was, an image will appear where the object was.