Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)

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The refractive indices of flint glass for red and violet lights are 1.613 and 1.632, respectively. Find the angular dispersion produced by a thin prism of flint glass having refracting angle 5.
05
Oct
The refractive indices of flint glass for red and violet lights are 1.613 and 1.632, respectively. Find the angular dispersion produced by a thin prism of flint glass having refracting angle 5. respectively. Find the angular dispersion produced by a thin prism of flint glass having refracting angle 5. The refractive indices of flint glass [...]
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Tags: respectively. Find the angular dispersion produced by a thin prism of flint glass having refracting angle 5. , The refractive indices of flint glass for red and violet lights are 1.613 and 1.632 ,
A point object O is placed at a distance of 62 cm in front of a concave mirror of focal length f = 20 cm. A glass slab of refractive index mu = 3/2 and thickness 6 cm is inserted between the object
05
Oct
A point object O is placed at a distance of 62 cm in front of a concave mirror of focal length f = 20 cm. A glass slab of refractive index mu = 3/2 and thickness 6 cm is inserted between the object A point object O is placed at a distance of 62 cm [...]
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Tags: A point object O is placed at a distance of 62 cm in front of a concave mirror of focal length f = 20 cm. A glass slab of refractive index mu = 3/2 and thickness 6 cm is inserted between the object ,
A ray of light is incident on a glass slab at grazing incidence. The refractive index of the material of the slab is given by mu = root (1 + y). If a thickness of the slab is d = 2 m, determine the equation of the trajectory
05
Oct
A ray of light is incident on a glass slab at grazing incidence. The refractive index of the material of the slab is given by mu = root (1 + y). If a thickness of the slab is d = 2 m, determine the equation of the trajectory A ray of light is incident on [...]
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Tags: A ray of light is incident on a glass slab at grazing incidence. The refractive index of the material of the slab is given by mu = root (1 + y). If a thickness of the slab is d = 2 m , determine the equation of the trajectory ,
A ray of light travelling in air is incident at angle of incident 30 on one surface of slab in which refractive index varies with y. The light travels along the curve y = 4 x^2 (Y and X are in meter) in the slab.
05
Oct
A ray of light travelling in air is incident at angle of incident 30 on one surface of slab in which refractive index varies with y. The light travels along the curve y = 4 x^2 (Y and X are in meter) in the slab. A concave mirror of radius R is kept on a [...]
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Tags: A concave mirror of radius R is kept on a horizontal table. Water (refractive index = mu) is poured into it up to a height h. Where should an object be placed so that its image is formed on itself? ,
The refractive index of an anisotropic medium varies as mu = mu 0 root (x + 1), where 0 < x < a. A ray of light is incident at the origin just along y axis (shown in figure).
05
Oct
The refractive index of an anisotropic medium varies as mu = mu 0 root (x + 1), where 0 < x < a. A ray of light is incident at the origin just along y axis (shown in figure). The refractive index of an anisotropic medium varies as mu = mu 0 root (x + [...]
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Tags: The refractive index of an anisotropic medium varies as mu = mu 0 root (x + 1) , where 0 < x < a. A ray of light is incident at the origin just along y axis (shown in figure). ,
The image of an object kept at a distance of 30 cm in front of a concave mirror is found to coincide with itself. If a glass slab ( mu = 1.5) of thickness 3 cm is introduced between the mirror and the object, then
05
Oct
The image of an object kept at a distance of 30 cm in front of a concave mirror is found to coincide with itself. If a glass slab ( mu = 1.5) of thickness 3 cm is introduced between the mirror and the object, then A concave mirror of radius R is kept on a [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A concave mirror of radius R is kept on a horizontal table. Water (refractive index = mu) is poured into it up to a height h. Where should an object be placed so that its image is formed on itself? ,
An object is placed on the principal axis of a concave mirror of focal length 10 cm at a distance of 21 cm from it. A glass slab is placed between the mirror and the object as shown in figure.
05
Oct
An object is placed on the principal axis of a concave mirror of focal length 10 cm at a distance of 21 cm from it. A glass slab is placed between the mirror and the object as shown in figure. An object is placed on the principal axis of a concave mirror of focal length [...]
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Tags: An object is placed on the principal axis of a concave mirror of focal length 10 cm at a distance of 21 cm from it. A glass slab is placed between the mirror and the object as shown in figure. ,
An object O is placed at 8 cm in front of a glass slab, whose one face is silvered as shown in figure. The thickness of the slab is 6 cm. If the image formed 10 cm behind the silvered face,
05
Oct
An object O is placed at 8 cm in front of a glass slab, whose one face is silvered as shown in figure. The thickness of the slab is 6 cm. If the image formed 10 cm behind the silvered face, An object O is placed at 8 cm in front of a glass slab [...]
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Tags: An object O is placed at 8 cm in front of a glass slab , whose one face is silvered as shown in figure. The thickness of the slab is 6 cm. If the image formed 10 cm behind the silvered face ,
In figure, a fish watcher watches a fish through a 3.0 cm thick glass wall of a fish tank. The watcher is in level with the fish; the index of refraction of the glass is 8/5 and that of the water is 4/3.
05
Oct
In figure, a fish watcher watches a fish through a 3.0 cm thick glass wall of a fish tank. The watcher is in level with the fish; the index of refraction of the glass is 8/5 and that of the water is 4/3. a fish watcher watches a fish through a 3.0 cm thick glass [...]
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Tags: a fish watcher watches a fish through a 3.0 cm thick glass wall of a fish tank. The watcher is in level with the fish; the index of refraction of the glass is 8/5 and that of the water is 4/3. , In figure ,
Identify the True or False statements. (a) A glass slab cannot deviate the light. (b) A glass slab can produce lateral displacement. (c) The shift produced by a slab depends on
05
Oct
Identify the True or False statements. (a) A glass slab cannot deviate the light. (b) A glass slab can produce lateral displacement. (c) The shift produced by a slab depends on Identify the True or False statements. (a) A glass slab cannot deviate the light. (b) A glass slab can produce lateral displacement. (c) The [...]
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Tags: Identify the True or False statements. (a) A glass slab cannot deviate the light. (b) A glass slab can produce lateral displacement. (c) The shift produced by a slab depends on ,