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

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Find the minimum thickness of mica sheet having mu = 3/2 which should be placed in front of one of the slits in YDSE is required to reduce the intensity at the centre of screen
10
Oct
Find the minimum thickness of mica sheet having mu = 3/2 which should be placed in front of one of the slits in YDSE is required to reduce the intensity at the centre of screen Find the minimum thickness of mica sheet having mu = 3/2 which should be placed in front of one of [...]
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Tags: Find the minimum thickness of mica sheet having mu = 3/2 which should be placed in front of one of the slits in YDSE is required to reduce the intensity at the centre of screen ,
Light incident on the slit S1 passes through a medium of variable refractive index mu = 1 + ax (where x is the distance from the plane of slits as shown, up to a distance L before falling on S1)
10
Oct
Light incident on the slit S1 passes through a medium of variable refractive index mu = 1 + ax (where x is the distance from the plane of slits as shown, up to a distance L before falling on S1) Light incident on the slit S1 passes through a medium of variable refractive index mu [...]
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Tags: Light incident on the slit S1 passes through a medium of variable refractive index mu = 1 + ax (where x is the distance from the plane of slits as shown , up to a distance L before falling on S1) ,
In YDSE with d = 1 mm and D = 1 m, slabs of (t = 1 micron m, mu = 3 ) and (t = 0.5 mu m, mu = 2) are introduced in front of upper and lower slits, respectively. Find the shift
10
Oct
In YDSE with d = 1 mm and D = 1 m, slabs of (t = 1 micron m, mu = 3 ) and (t = 0.5 mu m, mu = 2) are introduced in front of upper and lower slits, respectively. Find the shift In YDSE with d = 1 mm and D = [...]
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Tags: In YDSE with d = 1 mm and D = 1 m , mu = 2) are introduced in front of upper and lower slits , mu = 3 ) and (t = 0.5 mu m , respectively. Find the shift , slabs of (t = 1 micron m ,
In Young’s double slit experiment using monochromatic light, the fringe pattern shifts by a certain distance on the screen, when a mica sheet of refractive index 1.6 and thickness 2 micron
10
Oct
In Young’s double slit experiment using monochromatic light, the fringe pattern shifts by a certain distance on the screen, when a mica sheet of refractive index 1.6 and thickness 2 micron In Young's double slit experiment using monochromatic light the fringe pattern shifts by a certain distance on the screen when a mica sheet of [...]
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Tags: In Young's double slit experiment using monochromatic light , the fringe pattern shifts by a certain distance on the screen , when a mica sheet of refractive index 1.6 and thickness 2 micron ,
Interference fringes are produced by a double slit arrangement and a piece of plane parallel glass of refractive index 1.5 is interposed in one of the interfering beams. If the fringes
10
Oct
Interference fringes are produced by a double slit arrangement and a piece of plane parallel glass of refractive index 1.5 is interposed in one of the interfering beams. If the fringes Interference fringes are produced by a double slit arrangement and a piece of plane parallel glass of refractive index 1.5 is interposed in one [...]
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Tags: Interference fringes are produced by a double slit arrangement and a piece of plane parallel glass of refractive index 1.5 is interposed in one of the interfering beams. If the fringes ,
A solid sphere of radius R made of a material of bulk modulus B is surrounded by a liquid in a cylindrical container. A massless piston of area A (the area of container is also A) floats on the surface of the liquid. When a mass M is placed on the piston to compress the liquid , find the fractional change in radius of the sphere
10
Oct
A solid sphere of radius R made of a material of bulk modulus B is surrounded by a liquid in a cylindrical container. A massless piston of area A (the area of container is also A) floats on the surface of the liquid. When a mass M is placed on the piston to compress the [...]
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Tags: Bulk modulus for rubber is 9.8 x 10^8 N/m^2. To what depth ( in m ) should a rubber ball be taken in a lake so that its volume is decreased by 0.1% ? ,
The average depth of Indian Ocean is about 3000 m. The fractional compression, V Δ/V of water at the bottom of the ocean is then (Given: Bulk modulus of the water=2.2 × 10 ^ 9 N/m^-2 and density of water = 1000 kg /m^3 )
10
Oct
The average depth of Indian Ocean is about 3000 m. The fractional compression, V Δ/V of water at the bottom of the ocean is then (Given: Bulk modulus of the water=2.2 × 10 ^ 9 N/m^-2 and density of water = 1000 kg /m^3 ) The average depth of Indian Ocean is about 3000 m. [...]
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Tags: The average depth of Indian Ocean is about 3000 m. The fractional compression , V Δ/V of water at the bottom of the ocean is then (Given: Bulk modulus of the water=2.2 × 10 ^ 9 N/m^-2 and density of water = 1000 kg /m^3 ) ,
The breaking stress for a metal is 7.8 x 10^9 N/m^2. The density of the metal is 7800 kg m^-3. If g = 10 N Kg^-1, Find the maximum length of the wire made of this metal which may suspended without breaking.
10
Oct
The breaking stress for a metal is 7.8 x 10^9 N/m^2. The density of the metal is 7800 kg m^-3. If g = 10 N Kg^-1, Find the maximum length of the wire made of this metal which may suspended without breaking. Find the maximum length of the wire made of this metal which may [...]
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Tags: Find the maximum length of the wire made of this metal which may suspended without breaking. , The breaking stress for a metal is 7.8 x 10^9 N/m^2. The density of the metal is 7800 kg m^-3. If g = 10 N Kg^-1 ,
Monochromatic light of wavelength of 600 nm is used in YDSE. One of the slits is covered by a transparent sheet of thickness 1.8 * 10^-5 m made of a material of refractive index
10
Oct
Monochromatic light of wavelength of 600 nm is used in YDSE. One of the slits is covered by a transparent sheet of thickness 1.8 * 10^-5 m made of a material of refractive index Monochromatic light of wavelength of 600 nm is used in YDSE. One of the slits is covered by a transparent sheet [...]
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Tags: Monochromatic light of wavelength of 600 nm is used in YDSE. One of the slits is covered by a transparent sheet of thickness 1.8 * 10^-5 m made of a material of refractive index ,
Distance between the slits shown in figure is d = 20 lemda, where lemda is the wavelength of light used. Find the angle theta where (a) central maxima (where path difference is zero ) is obtained, and
10
Oct
Distance between the slits shown in figure is d = 20 lemda, where lemda is the wavelength of light used. Find the angle theta where (a) central maxima (where path difference is zero ) is obtained, and AND Distance between the slits shown in figure is d = 20 lemda where lemda is the wavelength [...]
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Tags: AND , Distance between the slits shown in figure is d = 20 lemda , where lemda is the wavelength of light used. Find the angle theta where (a) central maxima (where path difference is zero ) is obtained ,