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A transverse mechanical harmonic wave is travelling on a string. Maximum velocity and maximum acceleration of a particle on the string are 3 m/s and 90 m/s^2, respectively. If the wave is travelling with a speed
04
Sep
A transverse mechanical harmonic wave is travelling on a string. Maximum velocity and maximum acceleration of a particle on the string are 3 m/s and 90 m/s^2, respectively. If the wave is travelling with a speed A transverse mechanical harmonic wave is travelling on a string. Maximum velocity and maximum acceleration of a particle on [...]
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Tags: A transverse mechanical harmonic wave is travelling on a string. Maximum velocity and maximum acceleration of a particle on the string are 3 m/s and 90 m/s^2 , respectively. If the wave is travelling with a speed ,
A plane progressive wave is given by x = (40 cm) cos (50 pie t – 0.02pie y ) where y is in centimetres and t in seconds. What will be the particle velocity at y = 25 cm in time
04
Sep
A plane progressive wave is given by x = (40 cm) cos (50 pie t – 0.02pie y ) where y is in centimetres and t in seconds. What will be the particle velocity at y = 25 cm in time A plane progressive wave is given by x = (40 cm) cos (50 pie [...]
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Tags: A plane progressive wave is given by x = (40 cm) cos (50 pie t - 0.02pie y ) where y is in centimetres and t in seconds. What will be the particle velocity at y = 25 cm in time ,
In a cyclotron resonance experiment, if we assume that maximum radius attained by any charged particle is equal to radius of dees, then minimum kinetic energy gained by the particles will be :
04
Sep
In a cyclotron resonance experiment, if we assume that maximum radius attained by any charged particle is equal to radius of dees, then minimum kinetic energy gained by the particles will be : if we assume that maximum radius attained by any charged particle is equal to radius of dees In a cyclotron resonance experiment [...]
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Tags: if we assume that maximum radius attained by any charged particle is equal to radius of dees , In a cyclotron resonance experiment , then minimum kinetic energy gained by the particles will be : ,
For a wave described by , y = A sin(omega t – kx ) consider the following points (1) x = 0, (2) x = pie/4k (3) x = pie/2k (4) x = 3 pie/4k For a particle at each of these points at t = 0, describe whether the particle is moving
04
Sep
For a wave described by , y = A sin(omega t – kx ) consider the following points (1) x = 0, (2) x = pie/4k (3) x = pie/2k (4) x = 3 pie/4k For a particle at each of these points at t = 0, describe whether the particle is moving (2) x [...]
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Tags: (2) x = pie/4k (3) x = pie/2k (4) x = 3 pie/4k For a particle at each of these points at t = 0 , describe whether the particle is moving , For a wave described by , y = A sin(omega t - kx ) consider the following points (1) x = 0 ,
A wave is described by y = (2.00 cm ) sin (kx – omega t ), where k = pie rad/m, omega = 2pie rad/s, x is in metres and t is in seconds. Determine the amplitude, wavelength, frequency, and speed of the wave.
04
Sep
A wave is described by y = (2.00 cm ) sin (kx – omega t ), where k = pie rad/m, omega = 2pie rad/s, x is in metres and t is in seconds. Determine the amplitude, wavelength, frequency, and speed of the wave. A wave is described by y = (2.00 cm ) sin [...]
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Tags: A wave is described by y = (2.00 cm ) sin (kx - omega t ) , and speed of the wave. , frequency , omega = 2pie rad/s , wavelength , where k = pie rad/m , x is in metres and t is in seconds. Determine the amplitude ,
A sinusoidal wave travelling in the positive x-direction has an amplitude of 15 cm wavelength 40 cm and frequency 8 Hz. The vertical displacement of the medium at t = 0 and x = 0 is also 15 cm as shown in figure.
04
Sep
A sinusoidal wave travelling in the positive x-direction has an amplitude of 15 cm wavelength 40 cm and frequency 8 Hz. The vertical displacement of the medium at t = 0 and x = 0 is also 15 cm as shown in figure. Two sinusoidal waves in a string are defined by the functions y1 [...]
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Tags: Two sinusoidal waves in a string are defined by the functions y1 = (2.00 cm ) sin (20.0x - 32.0t) and Y2 = (2.00 cm ) sin (25.0x - 40.0t) where y1 , y2 and x are in centimetres and t is in seconds. (a) what is the phase ,
Two sinusoidal waves in a string are defined by the functions y1 = (2.00 cm ) sin (20.0x – 32.0t) and Y2 = (2.00 cm ) sin (25.0x – 40.0t) where y1 , y2 and x are in centimetres and t is in seconds. (a) what is the phase
04
Sep
Two sinusoidal waves in a string are defined by the functions y1 = (2.00 cm ) sin (20.0x – 32.0t) and Y2 = (2.00 cm ) sin (25.0x – 40.0t) where y1 , y2 and x are in centimetres and t is in seconds. (a) what is the phase Two sinusoidal waves in a string [...]
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Tags: Two sinusoidal waves in a string are defined by the functions y1 = (2.00 cm ) sin (20.0x - 32.0t) and Y2 = (2.00 cm ) sin (25.0x - 40.0t) where y1 , y2 and x are in centimetres and t is in seconds. (a) what is the phase ,
A wave travelling along X-axis is given by y = 2 (mm) sin(3t – 6x + pie/4) where x is in centimetres and t in second. Write the phase and hence the find the phase difference between them at t = 0
04
Sep
A wave travelling along X-axis is given by y = 2 (mm) sin(3t – 6x + pie/4) where x is in centimetres and t in second. Write the phase and hence the find the phase difference between them at t = 0 A wave travelling along X-axis is given by y = 2 (mm) sin(3t [...]
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Tags: A wave travelling along X-axis is given by y = 2 (mm) sin(3t - 6x + pie/4) where x is in centimetres and t in second. Write the phase and hence the find the phase difference between them at t = 0 ,
A wave is travelling along X-axis. The disturbance at x = 0 and t = 0 is A/2 and is increasing, where A is amplitude of the wave. If y = A sin (kx – omega t + phi), determine the initial phase phi.
04
Sep
A wave is travelling along X-axis. The disturbance at x = 0 and t = 0 is A/2 and is increasing, where A is amplitude of the wave. If y = A sin (kx – omega t + phi), determine the initial phase phi. A wave is travelling along X-axis. The disturbance at x = [...]
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Tags: A wave is travelling along X-axis. The disturbance at x = 0 and t = 0 is A/2 and is increasing , determine the initial phase phi. , where A is amplitude of the wave. If y = A sin (kx - omega t + phi) ,
A transverse harmonic wave of amplitude 1.0 cm and wavelength 3.0 m is travelling in positive x direction on a stretched string. At an instant, the particle at x = 5.0 m is at
04
Sep
A transverse harmonic wave of amplitude 1.0 cm and wavelength 3.0 m is travelling in positive x direction on a stretched string. At an instant, the particle at x = 5.0 m is at A transverse harmonic wave of amplitude 1.0 cm and wavelength 3.0 m is travelling in positive x direction on a stretched [...]
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Tags: A transverse harmonic wave of amplitude 1.0 cm and wavelength 3.0 m is travelling in positive x direction on a stretched string. At an instant , the particle at x = 5.0 m is at ,