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

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In a YDSE D = 1 m, d = 1 mm, and lemda = 1/2 mm. (a) Find the distance between the first and central maxima on the screen. (b) Find the number of maxima and minima obtained on the screen.
09
Sep
In a YDSE D = 1 m, d = 1 mm, and lemda = 1/2 mm. (a) Find the distance between the first and central maxima on the screen. (b) Find the number of maxima and minima obtained on the screen. and lemda = 1/2 mm. (a) Find the distance between the first and central [...]
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Tags: and lemda = 1/2 mm. (a) Find the distance between the first and central maxima on the screen. (b) Find the number of maxima and minima obtained on the screen. , d = 1 mm , In a YDSE D = 1 m ,
In Young’s double slit interference experiment, the distance between two sources is 9/100 pie mm. The distance of the screen from the source is 1.0 m. Wavelength of light used is 5000 A.
09
Sep
In Young’s double slit interference experiment, the distance between two sources is 9/100 pie mm. The distance of the screen from the source is 1.0 m. Wavelength of light used is 5000 A. In Young's double slit interference experiment the distance between two sources is 9/100 pie mm. The distance of the screen from the [...]
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Tags: In Young's double slit interference experiment , the distance between two sources is 9/100 pie mm. The distance of the screen from the source is 1.0 m. Wavelength of light used is 5000 A. ,
In Young’s double slit interference experiment, with monochromatic light, fringes are obtained on a screen placed at some distance from the slits. If the screen is moved by
09
Sep
In Young’s double slit interference experiment, with monochromatic light, fringes are obtained on a screen placed at some distance from the slits. If the screen is moved by fringes are obtained on a screen placed at some distance from the slits. If the screen is moved by In Young's double slit interference experiment with monochromatic [...]
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Tags: fringes are obtained on a screen placed at some distance from the slits. If the screen is moved by , In Young's double slit interference experiment , with monochromatic light ,
Young’s double slit experiment is performed inside water (mu = 4/3) with light of frequency 6 * 10^14 Hz. If the slits are separated by 0.2 mm and the screen kept 1 m from the slits,
09
Sep
Young’s double slit experiment is performed inside water (mu = 4/3) with light of frequency 6 * 10^14 Hz. If the slits are separated by 0.2 mm and the screen kept 1 m from the slits, Young's double slit experiment is performed inside water (mu = 4/3) with light of frequency 6 * 10^14 Hz. [...]
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Tags: Young's double slit experiment is performed inside water (mu = 4/3) with light of frequency 6 * 10^14 Hz. If the slits are separated by 0.2 mm and the screen kept 1 m from the slits ,
The slits of the double slit is illuminated by light of wave length 5000A . The slit are 1mm apart and the screen is placed 1m away. Calculate: (1) the angular position of the 10 th maxima
09
Sep
The slits of the double slit is illuminated by light of wave length 5000A . The slit are 1mm apart and the screen is placed 1m away. Calculate: (1) the angular position of the 10 th maxima The slits of the double slit is illuminated by light of wave length 5000A . The slit are [...]
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Tags: The slits of the double slit is illuminated by light of wave length 5000A . The slit are 1mm apart and the screen is placed 1m away. Calculate: (1) the angular position of the 10 th maxima ,
In Young’s experiment for interference of light the slits 0.2 cm apart are illuminated by yellow light (lemda = 6000 A). What would be the fringe width on a screen placed 1 m from
09
Sep
In Young’s experiment for interference of light the slits 0.2 cm apart are illuminated by yellow light (lemda = 6000 A). What would be the fringe width on a screen placed 1 m from In Young's experiment for interference of light the slits 0.2 cm apart are illuminated by yellow light (lemda = 6000 A). [...]
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Tags: In Young's experiment for interference of light the slits 0.2 cm apart are illuminated by yellow light (lemda = 6000 A). What would be the fringe width on a screen placed 1 m from ,
A ray (wavelength lemda) is incident at an angle i at A of a glass slab of thickness t and refractive index = mu. Find the (a) phase difference between rays 1 and 2 (b) value of t for normal incidence
09
Sep
A ray (wavelength lemda) is incident at an angle i at A of a glass slab of thickness t and refractive index = mu. Find the (a) phase difference between rays 1 and 2 (b) value of t for normal incidence A ray (wavelength lemda) is incident at an angle i at A of a [...]
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Tags: A ray (wavelength lemda) is incident at an angle i at A of a glass slab of thickness t and refractive index = mu. Find the (a) phase difference between rays 1 and 2 (b) value of t for normal incidence ,
White light is incident normally on a glass plate of thickness 0.50 * 10^-6 and index of refraction 1.50. Which wavelengths in the visible region (400 nm -700 nm) are strongly reflected by the plate?
09
Sep
White light is incident normally on a glass plate of thickness 0.50 * 10^-6 and index of refraction 1.50. Which wavelengths in the visible region (400 nm -700 nm) are strongly reflected by the plate? White light is incident normally on a glass plate of thickness 0.50 * 10^-6 and index of refraction 1.50. Which [...]
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Tags: White light is incident normally on a glass plate of thickness 0.50 * 10^-6 and index of refraction 1.50. Which wavelengths in the visible region (400 nm -700 nm) are strongly reflected by the plate? ,
A glass lens is coated on one side with a thin film of magnesium fluoride (MgF2) to reduce reflection from the lens surface (see figure). The index of refraction of MgF2 is 1.38; that of the glass is 1.50.
09
Sep
A glass lens is coated on one side with a thin film of magnesium fluoride (MgF2) to reduce reflection from the lens surface (see figure). The index of refraction of MgF2 is 1.38; that of the glass is 1.50. (a) In illustration 3.10 how many dark rings will be observed on the wall? (b) What [...]
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Tags: (a) In illustration 3.10 how many dark rings will be observed on the wall? (b) What is the path difference at point P? ,
White light with a uniform intensity across the visible wavelength range 430-690 nm, is perpendicularly incident on a water film of index of refraction mu = 1.33 and thickness d = 320 nm, that is suspended
09
Sep
White light with a uniform intensity across the visible wavelength range 430-690 nm, is perpendicularly incident on a water film of index of refraction mu = 1.33 and thickness d = 320 nm, that is suspended is perpendicularly incident on a water film of index of refraction mu = 1.33 and thickness d = 320 [...]
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Tags: is perpendicularly incident on a water film of index of refraction mu = 1.33 and thickness d = 320 nm , that is suspended , White light , with a uniform intensity across the visible wavelength range 430-690 nm ,