Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
A horizontal plank has a rectangular block placed on it. The plank starts oscillating vertically and simple harmonically with an amplitude of 40 cm. The block just loses contact with the plank
31
Oct
A horizontal plank has a rectangular block placed on it. The plank starts oscillating vertically and simple harmonically with an amplitude of 40 cm. The block just loses contact with the plank A horizontal plank has a rectangular block placed on it. The plank starts oscillating vertically and simple harmonically with an amplitude of 40 [...]
The speed v of a particle moving along a straight line, when it is at a distant (x) from a fixed point of the line is given by v^2 = 108 – 9x^2 (all equations are in CGS units):
31
Oct
The speed v of a particle moving along a straight line, when it is at a distant (x) from a fixed point of the line is given by v^2 = 108 – 9x^2 (all equations are in CGS units): The speed v of a particle moving along a straight line when it is at a [...]
A particle is subjected to two simple harmonic motions along x and y directions according to x = 3 sin 100 pie t; y = 4 sin 100 pie t.
31
Oct
A particle is subjected to two simple harmonic motions along x and y directions according to x = 3 sin 100 pie t; y = 4 sin 100 pie t. A particle is subjected to two simple harmonic motions along x and y directions according to x = 3 sin 100 pie t; y = [...]
A particle performing simple harmonic motion undergoes initial displacement of A/2 (where A is the amplitude of simple harmonic motion) in 1 s. At t = 0, the particle may be
31
Oct
A particle performing simple harmonic motion undergoes initial displacement of A/2 (where A is the amplitude of simple harmonic motion) in 1 s. At t = 0, the particle may be A particle performing simple harmonic motion undergoes initial displacement of A/2 (where A is the amplitude of simple harmonic motion) in 1 s. At [...]
A conic surface is placed in a uniform electric field E as shown in figure. Such that the field is perpendicular to the surface on the side AB. The base of the cone is of radius R, and the height of the cone is h. The angle of the cone is θ. Find the magnitude of the flux that enters the cone’s curved surface from the left side. Do not count the outgoing flux (θ<45∘).
31
Oct
A conic surface is placed in a uniform electric field E as shown in figure. Such that the field is perpendicular to the surface on the side AB. The base of the cone is of radius R, and the height of the cone is h. The angle of the cone is θ. Find the magnitude [...]
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A conic surface is placed in a uniform electric field E as shown in figure. Such that the field is perpendicular to the surface on the side AB. The base of the cone is of radius R ,
and the height of the cone is h. The angle of the cone is θ. Find the magnitude of the flux that enters the cone's curved surface from the left side. Do not count the outgoing flux (θ<45∘). ,
An uncharge aluminium block has a cavity within it. The block is placed in a region where a uniform electric field is directed upward. Which of the following is a correct statement descrining conditions in the interior of the block’s cavity?
31
Oct
An uncharge aluminium block has a cavity within it. The block is placed in a region where a uniform electric field is directed upward. Which of the following is a correct statement descrining conditions in the interior of the block’s cavity? In a region of space the electric field is given by E = 8 [...]
An uncharged conducting large plate is placed as shown. Now an electric field E toward right is applied. Find the induced charged charge density on the right surface of the plate .
31
Oct
An uncharged conducting large plate is placed as shown. Now an electric field E toward right is applied. Find the induced charged charge density on the right surface of the plate . An uncharged conducting large plate is placed as shown. Now an electric field E toward right is applied. Find the induced charged charge [...]
The potential energy U of a body of unit mass moving in one dimensional conservative force field is given by U = x^2 – 4x + 3. All units are in SI. For this situation mark out the correct
31
Oct
The potential energy U of a body of unit mass moving in one dimensional conservative force field is given by U = x^2 – 4x + 3. All units are in SI. For this situation mark out the correct The potential energy U of a body of unit mass moving in one dimensional conservative force [...]
The electric field field on two sides of a large charged plate is shown in figure. THe charge density on the plate in SI units is given by ( e0 is the permittivity of free space in SI units )
31
Oct
The electric field field on two sides of a large charged plate is shown in figure. THe charge density on the plate in SI units is given by ( e0 is the permittivity of free space in SI units ) The electric field field on two sides of a large charged plate is shown in [...]
For a simple harmonic motion with given angular frequency omega, two arbitrary initial conditions are necessary and sufficient to determine the motion completely. These initial
31
Oct
For a simple harmonic motion with given angular frequency omega, two arbitrary initial conditions are necessary and sufficient to determine the motion completely. These initial For a simple harmonic motion with given angular frequency omega two arbitrary initial conditions are necessary and sufficient to determine the motion completely. These initial October 31, 2020 Category: Uncategorised [...]