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Consider two concentric metal spheres. The outer sphere is given a charge Q >0, then
05
Nov
Consider two concentric metal spheres. The outer sphere is given a charge Q >0, then Consider two concentric metal spheres. The outer sphere is given a charge Q >0 then November 5, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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An uncharged conductor A is brought near a positively charged conductor B. The size of the conductor A is much greater than the size of conductor B. then ,
05
Nov
An uncharged conductor A is brought near a positively charged conductor B. The size of the conductor A is much greater than the size of conductor B. then , An uncharged conductor A is brought near a positively charged conductor B. The size of the conductor A is much greater than the size of conductor [...]
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Two closed-end pipes, when sounded together produce 5 beats/s. If their lengths are in the ratio 100 : 101, then fundamental notes (in Hz) produced by them are
05
Nov
Two closed-end pipes, when sounded together produce 5 beats/s. If their lengths are in the ratio 100 : 101, then fundamental notes (in Hz) produced by them are then fundamental notes (in Hz) produced by them are Two closed-end pipes when sounded together produce 5 beats/s. If their lengths are in the ratio 100 : [...]
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Tags: then fundamental notes (in Hz) produced by them are , Two closed-end pipes , when sounded together produce 5 beats/s. If their lengths are in the ratio 100 : 101 ,
A sonometer wire of length l vibrates in fundamental mode when excited by a tuning fork of frequency 416 Hz. If the length is doubled keeping other things same, the string will
05
Nov
A sonometer wire of length l vibrates in fundamental mode when excited by a tuning fork of frequency 416 Hz. If the length is doubled keeping other things same, the string will A sonometer wire of length l vibrates in fundamental mode when excited by a tuning fork of frequency 416 Hz. If the length [...]
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Tags: A sonometer wire of length l vibrates in fundamental mode when excited by a tuning fork of frequency 416 Hz. If the length is doubled keeping other things same , the string will ,
A sound wave of wavelength lemda travels towards the right horizontally with a velocity V. It strikes and reflects from a vertical plane surface, travelling at a speed v towards the left.
05
Nov
A sound wave of wavelength lemda travels towards the right horizontally with a velocity V. It strikes and reflects from a vertical plane surface, travelling at a speed v towards the left. A sound wave of wavelength lemda travels towards the right horizontally with a velocity V. It strikes and reflects from a vertical plane [...]
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Tags: A sound wave of wavelength lemda travels towards the right horizontally with a velocity V. It strikes and reflects from a vertical plane surface , travelling at a speed v towards the left. ,
Forty-one forks are so arranged that each produces 5 beat/s when sounded with its near fork. If the frequency of last fork is double the frequency of first fork, then the frequecies of
05
Nov
Forty-one forks are so arranged that each produces 5 beat/s when sounded with its near fork. If the frequency of last fork is double the frequency of first fork, then the frequecies of Forty-one forks are so arranged that each produces 5 beat/s when sounded with its near fork. If the frequency of last fork [...]
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Tags: Forty-one forks are so arranged that each produces 5 beat/s when sounded with its near fork. If the frequency of last fork is double the frequency of first fork , then the frequecies of ,
A graph of the x-component of the electric field as a function of x in a region of space is shown in figure. The y−andz−compo≠nts of the electric field are zero in this region. If the electric potential is 10 V at the origin, then the potential at x = 2.0 m is
05
Nov
A graph of the x-component of the electric field as a function of x in a region of space is shown in figure. The y−andz−compo≠nts of the electric field are zero in this region. If the electric potential is 10 V at the origin, then the potential at x = 2.0 m is A solid [...]
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Tags: A solid conducting sphere of radius 10cm is enclosed by a thin metallic shell of radius 20cm. A charge q=20μC is given to the inner sphere is connected to the shell by a conducting wire. ,
On sounding tuning fork A with another tuning fork B of frequency 384 Hz, 6 beats are produced per second. After loading the prongs of A with wax and then sounding it again
05
Nov
On sounding tuning fork A with another tuning fork B of frequency 384 Hz, 6 beats are produced per second. After loading the prongs of A with wax and then sounding it again 6 beats are produced per second. After loading the prongs of A with wax and then sounding it again On sounding tuning [...]
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At a distance r from a point located at origin in space , the electric potential varies as V = 10 r . Find the electric field at r = 3i + 4 j -5 k.
05
Nov
At a distance r from a point located at origin in space , the electric potential varies as V = 10 r . Find the electric field at r = 3i + 4 j -5 k. At a distance r from a point located at origin in space the electric potential varies as V = [...]
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Tags: At a distance r from a point located at origin in space , the electric potential varies as V = 10 r . Find the electric field at r = 3i + 4 j -5 k. ,
Mark out the correct statement(s) regarding standing waves.
05
Nov
Mark out the correct statement(s) regarding standing waves. Mark out the correct statement(s) regarding standing waves. November 5, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: Mark out the correct statement(s) regarding standing waves. ,