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

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What is the phase difference between the particles 1 and 2 located as shown in figure ?
01
Nov
What is the phase difference between the particles 1 and 2 located as shown in figure ? What is the phase difference between the particles 1 and 2 located as shown in figure ? November 1, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Verify that wave function y = 2 / (x – 3t)^2 + 1 is a solution to the linear wave equation, x and y are in centimetres.
01
Nov
Verify that wave function y = 2 / (x – 3t)^2 + 1 is a solution to the linear wave equation, x and y are in centimetres. Verify that wave function y = 2 / (x - 3t)^2 + 1 is a solution to the linear wave equation x and y are in centimetres. November [...]
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Tags: Verify that wave function y = 2 / (x - 3t)^2 + 1 is a solution to the linear wave equation , x and y are in centimetres. ,
If the displacement relation for a particle in a wave is given by y = 5 sin (t/0.04 – x/4), determine the maximum speed of the particle in SI units.
01
Nov
If the displacement relation for a particle in a wave is given by y = 5 sin (t/0.04 – x/4), determine the maximum speed of the particle in SI units. determine the maximum speed of the particle in SI units. If the displacement relation for a particle in a wave is given by y = [...]
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Tags: determine the maximum speed of the particle in SI units. , If the displacement relation for a particle in a wave is given by y = 5 sin (t/0.04 - x/4) ,
A travelling wave pulse is given by Y = 0.8/ (xx^2 + 12xt + 12t^2 + 4) where x and y are in m and t is in seconds. Find the velocity and amplitude of the wave.
01
Nov
A travelling wave pulse is given by Y = 0.8/ (xx^2 + 12xt + 12t^2 + 4) where x and y are in m and t is in seconds. Find the velocity and amplitude of the wave. A travelling wave pulse is given by Y = 0.8/ (xx^2 + 12xt + 12t^2 + 4) where [...]
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Tags: A travelling wave pulse is given by Y = 0.8/ (xx^2 + 12xt + 12t^2 + 4) where x and y are in m and t is in seconds. Find the velocity and amplitude of the wave. ,
A travelling wave pulse is given by y = 10/ 5 + (x+2t)^2 In which direction and with what velocity is the pulse propagating ? What is the amplitude of the pulse ?
01
Nov
A travelling wave pulse is given by y = 10/ 5 + (x+2t)^2 In which direction and with what velocity is the pulse propagating ? What is the amplitude of the pulse ? A travelling wave pulse is given by y = 10/ 5 + (x+2t)^2 In which direction and with what velocity is the [...]
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Tags: A travelling wave pulse is given by y = 10/ 5 + (x+2t)^2 In which direction and with what velocity is the pulse propagating ? What is the amplitude of the pulse ? ,
A wave is propagating on a long stretched string along its length taken as the positive x-axis. The wave equation is given as y = y0e ^ -(t/T – x/lemda)^2 where y. = 4 mm, T = 1.0 s and lemda = 4 cm. (a) Find the velocity of the wave.
01
Nov
A wave is propagating on a long stretched string along its length taken as the positive x-axis. The wave equation is given as y = y0e ^ -(t/T – x/lemda)^2 where y. = 4 mm, T = 1.0 s and lemda = 4 cm. (a) Find the velocity of the wave. A wave is propagating [...]
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Tags: A wave is propagating on a long stretched string along its length taken as the positive x-axis. The wave equation is given as y = y0e ^ -(t/T - x/lemda)^2 where y. = 4 mm , T = 1.0 s and lemda = 4 cm. (a) Find the velocity of the wave. ,
The electric field in a region is radially outward with magnitude E = ar. If a = 100 V/m^2 and R = 0.30 m, then the value of charge contained in a sphere of radius R centred at the origin is W × 10^−10 C. Find W.
01
Nov
The electric field in a region is radially outward with magnitude E = ar. If a = 100 V/m^2 and R = 0.30 m, then the value of charge contained in a sphere of radius R centred at the origin is W × 10^−10 C. Find W. The electric field in a region is radially [...]
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Tags: The electric field in a region is radially outward with magnitude E = ar. If a = 100 V/m^2 and R = 0.30 m , then the value of charge contained in a sphere of radius R centred at the origin is W × 10^−10 C. Find W. ,
Show that (a) y = (x + vt)^2, (x + t)^2, (c) y = (x – vt)^2, and (d) y = 2 sin x cos vt are each a solution of one-dimensional wave equation but not (e) y = x^2 -v^2t^2 and (f) y = sin 2x cos vt.
01
Nov
Show that (a) y = (x + vt)^2, (x + t)^2, (c) y = (x – vt)^2, and (d) y = 2 sin x cos vt are each a solution of one-dimensional wave equation but not (e) y = x^2 -v^2t^2 and (f) y = sin 2x cos vt. (c) y = (x - vt)^2 [...]
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Tags: (c) y = (x - vt)^2 , (x + t)^2 , and (d) y = 2 sin x cos vt are each a solution of one-dimensional wave equation but not (e) y = x^2 -v^2t^2 and (f) y = sin 2x cos vt. , Show that (a) y = (x + vt)^2 ,
A conducting shell of inner radius R2 is given a charge +Q . A point charge q1 is placed inside the shell and q2 is placed outside the shell. Then for various location of q1 and q2 match the entries of column I with the entries of column II.
01
Nov
A conducting shell of inner radius R2 is given a charge +Q . A point charge q1 is placed inside the shell and q2 is placed outside the shell. Then for various location of q1 and q2 match the entries of column I with the entries of column II. a charge Q1 is placed a [...]
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Tags: a charge Q1 is placed , a charge Q2 is placed. , Inside a neutral spherical shell , outside the shell ,
The equation of travelling wave is given by y = +b/a root a^2 – (x-cy)^2 where -a < x < a = 0, otherwise Find the amplitude and the wave velocity for the wave. What is the initial particle
01
Nov
The equation of travelling wave is given by y = +b/a root a^2 – (x-cy)^2 where -a < x < a = 0, otherwise Find the amplitude and the wave velocity for the wave. What is the initial particle otherwise Find the amplitude and the wave velocity for the wave. What is the initial particle [...]
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Tags: otherwise Find the amplitude and the wave velocity for the wave. What is the initial particle , The equation of travelling wave is given by y = +b/a root a^2 - (x-cy)^2 where -a < x < a = 0 ,