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the focal length of the eye lens is adjusted so that the image distance does not change.
The image becomes blurred and it's size increases.
You see the bottom half of the object, and whatever you covered the top half with.
image larger than object
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.
[Traditional] cameras.
The entire image is flipped upsidedown.
the focal length of the eye lens is adjusted so that the image distance does not change.
A superior mirage happens when an image (mirage) of an object appears above the actual object. This happens due to the bending of light waves.
They have a real 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.
The image becomes blurred and it's size increases.
Generally a higher shutter speed such as 1/500 is required to capture the image of a fast moving object without a blur. Some cameras have an automatic setting for this.
You see the bottom half of the object, and whatever you covered the top half with.
image larger than object
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.
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.