Chapter 18 – Refraction at Spherical Surfaces
Sahay Sir > Question Answers > Cengage NEET by C.P Singh > Part 2 > Chapter 18 - Refraction at Spherical Surfaces
A thin lens, made of glass of refractive index 1.5, produces a real and magnified image of an object in air. If the system, with the same distance between the object and the lens, is immersed in water (RI=4/3), then the image formed will be
17
Nov
A thin lens, made of glass of refractive index 1.5, produces a real and magnified image of an object in air. If the system, with the same distance between the object and the lens, is immersed in water (RI=4/3), then the image formed will be A thin lens is immersed in water (RI=4/3) made of [...]
A convex lens is used to form a real image of the object shown in the figure. The real inverted image shown in the following figures is
17
Nov
A convex lens is used to form a real image of the object shown in the figure. The real inverted image shown in the following figures is A convex lens is used to form a real image of the object shown in the figure. The real inverted image shown in the following figures is November [...]
A parallel beam of light is incident on a converging lens parallel to its principal axis. As one moves away from the les on the other side on its principal axis, the intensity of light
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Nov
A parallel beam of light is incident on a converging lens parallel to its principal axis. As one moves away from the les on the other side on its principal axis, the intensity of light A parallel beam of light is incident on a converging lens parallel to its principal axis. As one moves away [...]
A double convex lens, made of a material of refractive index μ1, is placed inside two liquids of refractive indices μ2 and μ3 as shown. μ2 > μ1 > μ3 . A wide, parallel beam of light is incident on the lens from the left. The lens will give rise to
17
Nov
A double convex lens, made of a material of refractive index μ1, is placed inside two liquids of refractive indices μ2 and μ3 as shown. μ2 > μ1 > μ3 . A wide, parallel beam of light is incident on the lens from the left. The lens will give rise to A double convex lens [...]
A thin lens has focal length f, and its aperture has diameter d. It forms an image of intensity I. If the central part of the aperture, of diameter 2/d, is blocked by an opaque paper, the focal length of the lens and the intensity of image will become
17
Nov
A thin lens has focal length f, and its aperture has diameter d. It forms an image of intensity I. If the central part of the aperture, of diameter 2/d, is blocked by an opaque paper, the focal length of the lens and the intensity of image will become A thin lens has focal length [...]
A convex lens is made up of three different materials as shown in the figure. For a point object placed on its axis, the number of images formed are
17
Nov
A convex lens is made up of three different materials as shown in the figure. For a point object placed on its axis, the number of images formed are A convex lens is made up of three different materials as shown in the figure. For a point object placed on its axis the number of [...]
Consider three converging lenses L1, L2 and L3, having identical geometrical construction. The index of refraction of L1 and L2 are μ1, and μ2, respectively. The upper half of the lens L3 has a refractive index and the lower half has μ2 . A point object O is imaged at O1, by the lens L1, and at O2 by the lens L2 placed in same position. If L3 i s placed at the same place,
17
Nov
Consider three converging lenses L1, L2 and L3, having identical geometrical construction. The index of refraction of L1 and L2 are μ1, and μ2, respectively. The upper half of the lens L3 has a refractive index and the lower half has μ2 . A point object O is imaged at O1, by the lens L1, [...]
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and at O2 by the lens L2 placed in same position. If L3 i s placed at the same place ,
and μ2 ,
by the lens L1 ,
Consider three converging lenses L1 ,
having identical geometrical construction. The index of refraction of L1 and L2 are μ1 ,
L2 and L3 ,
respectively. The upper half of the lens L3 has a refractive index and the lower half has μ2 . A point object O is imaged at O1 ,
A convex lens form a real image of a point object placed on its principal axis. if the upper half of the lens is painted black,
17
Nov
A convex lens form a real image of a point object placed on its principal axis. if the upper half of the lens is painted black, A convex lens form a real image of a point object placed on its principal axis. if the upper half of the lens is painted black November 17, 2020 [...]
A convex lens is made of 3 layers of glass of 3 different materials as in the figures. A point object is placed on its axis . The number of images of the object are
17
Nov
A convex lens is made of 3 layers of glass of 3 different materials as in the figures. A point object is placed on its axis . The number of images of the object are A convex lens is made of 3 layers of glass of 3 different materials as in the figures. A point [...]
In the above question if there is air in the object space and water in the image space, then the focal length is
17
Nov
In the above question if there is air in the object space and water in the image space, then the focal length is In the above question if there is air in the object space and water in the image space then the focal length is November 17, 2020 Category: Cengage NEET by C.P Singh [...]