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Converging lenses: They are fatter at the center, e.g., biconvex lens, plano-convex lens, etc.
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Diverging lenses: They are thinner at the center, e.g., biconcave lens, plano-concave lens, etc.
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Principal focus (or focal point): It is the point where all rays close to and parallel to the principal axis converge after refraction from a converging lens.
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Focal length: Focal length is the distance between the optical center of the lens and the principal focus.
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Important rays for converging lens are:
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An incident ray that passes straight through optical centre.
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An incident ray parallel to principal axis is refracted to pass through principal focus (F).
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An incident ray passing through principal focus (F) is refracted to become parallel to principal axis.
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Important rays for diverging lens are:
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An incident ray that passes straight through optical centre.
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An incident ray parallel to principal axis is refracted such that it appears to be coming from the principal focus (F) on the side of the object.
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An incident ray aiming for principal focus (F) on far side is refracted to become parallel to principal axis.
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Human eye
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Parts and their functions:
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a crystalline biconvex lens to focus light
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a retina having light sensitive cells acts as a screen
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ciliary muscles to change the curvature of the lens
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an iris controls the amount of light entering the eye
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Working: The human eye can change the lens curvature (and hence the principal focus) to view objects that are far or near.
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Shortsightedness (Myopia): The eye can focus light from near objects but not from objects that are far.
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It is corrected like this.
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Farsightedness (Hyperopia): The eye can focus light from far objects but not from those that are near.
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It is corrected like this.
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Linear magnification (m)
m = (image height) / (object height)
m = (image distance) / (object distance)
Note: “m = 1” means image is same size as the object. “m = 2” means image is twice the size of the object and so on…
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Properties of an image
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inverted / upright
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real / virtual
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magnified / diminished / same size
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greater / same / less distance from lens compared to the object
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Virtual images are always upright and real images are always inverted.
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Lenses are used in cameras, projectors, photocopiers, telescopes, etc.
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