Part 1

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Two waves are represented by the equations y1​=asin(ω+kx+0.57)m and y2​=acos(ωt+kx)m where x is in meter and t in sec. The phase difference between them is
11
Nov
Two waves are represented by the equations y1​=asin(ω+kx+0.57)m and y2​=acos(ωt+kx)m where x is in meter and t in sec. The phase difference between them is Two waves are represented by the equations y1​=asin(ω+kx+0.57)m and y2​=acos(ωt+kx)m where x is in meter and t in sec. The phase difference between them is November 11, 2020 Category: Chapter [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: Two waves are represented by the equations y1​=asin(ω+kx+0.57)m and y2​=acos(ωt+kx)m where x is in meter and t in sec. The phase difference between them is ,
y=4sin(15πx​)cos(96πt),where x and y are in cm and t in seconds. the velocity of the particles atx =7.5cm and t=0.25s is
11
Nov
y=4sin(15πx​)cos(96πt),where x and y are in cm and t in seconds. the velocity of the particles atx =7.5cm and t=0.25s is where x and y are in cm and t in seconds. the velocity of the particles atx =7.5cm and t=0.25s is y=4sin(15πx​)cos(96πt) November 11, 2020 Category: Chapter 17 - Wave Motion , MTG NEET [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: where x and y are in cm and t in seconds. the velocity of the particles atx =7.5cm and t=0.25s is , y=4sin(15πx​)cos(96πt) ,
If the speed of the wave shown in the figure is 330 m/s in the given medium, then the equation of the wave propagation in the positive x-direction will be ……………. (a) y = 0.05 sin 2π (4000t – 12.5x) m (b) y = 0.05 sin 2π (4000t – 122.5x) m (c) y = 0.05 sin 2π (3300t – 10x) m (d) y = 0.05 sin 2π (3300t – 10x) m
11
Nov
If the speed of the wave shown in the figure is 330 m/s in the given medium, then the equation of the wave propagation in the positive x-direction will be ……………. (a) y = 0.05 sin 2π (4000t – 12.5x) m (b) y = 0.05 sin 2π (4000t – 122.5x) m (c) y = 0.05 [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: If the speed of the wave shown in the figure is 330 m/s in the given medium , If the wave equation of a particle is represented by , then the wave equation represents a wave travelling in , y=0.8sin(20piet-5piex+pie/4).where x and y are measured in m and t is measured in s ,
The displacement y (in cm) produced by a simple harmonic wave is y=π10​sin (2000πt−15/πx​) periodic time and maximum velocity of the particle in the medium will respectively be-
11
Nov
The displacement y (in cm) produced by a simple harmonic wave is y=π10​sin (2000πt−15/πx​) periodic time and maximum velocity of the particle in the medium will respectively be- The displacement y (in cm) produced by a simple harmonic wave is y=π10​sin (2000πt−15/πx​) periodic time and maximum velocity of the particle in the medium will respectively [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: The displacement y (in cm) produced by a simple harmonic wave is y=π10​sin (2000πt−15/πx​) periodic time and maximum velocity of the particle in the medium will respectively be- ,
If the wave equation of a particle is represented by,y=0.8sin(20piet-5piex+pie/4).where x and y are measured in m and t is measured in s,then the wave equation represents a wave travelling in
11
Nov
If the wave equation of a particle is represented by,y=0.8sin(20piet-5piex+pie/4).where x and y are measured in m and t is measured in s,then the wave equation represents a wave travelling in If the wave equation of a particle is represented by then the wave equation represents a wave travelling in y=0.8sin(20piet-5piex+pie/4).where x and y are [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: If the wave equation of a particle is represented by , then the wave equation represents a wave travelling in , y=0.8sin(20piet-5piex+pie/4).where x and y are measured in m and t is measured in s ,
A progressive wave moving along x-axis represented by y=Asin[λ2π​(vt−x)]. The wavelength (λ) at which the maximum particle velocity is 3 times the wave velocity is
11
Nov
A progressive wave moving along x-axis represented by y=Asin[λ2π​(vt−x)]. The wavelength (λ) at which the maximum particle velocity is 3 times the wave velocity is A progressive wave moving along x-axis represented by y=Asin[λ2π​(vt−x)]. The wavelength (λ) at which the maximum particle velocity is 3 times the wave velocity is November 11, 2020 Category: Chapter [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: A progressive wave moving along x-axis represented by y=Asin[λ2π​(vt−x)]. The wavelength (λ) at which the maximum particle velocity is 3 times the wave velocity is ,
What will be the wave velocity, if the radar gives 54 waves per min and wavelength of the given wave is 10m?
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Nov
What will be the wave velocity, if the radar gives 54 waves per min and wavelength of the given wave is 10m? if the radar gives 54 waves per min and wavelength of the given wave is 10m? What will be the wave velocity November 11, 2020 Category: Chapter 17 - Wave Motion , MTG [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: if the radar gives 54 waves per min and wavelength of the given wave is 10m? , What will be the wave velocity ,
Oxygen is 16 times heavier than hydrogen. Equal volume of hydrogen and oxygen are mixed. The ratio of speed of sound in the mixture to that in hydrogen is
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Nov
Oxygen is 16 times heavier than hydrogen. Equal volume of hydrogen and oxygen are mixed. The ratio of speed of sound in the mixture to that in hydrogen is Oxygen is 16 times heavier than hydrogen. Equal volume of hydrogen and oxygen are mixed. The ratio of speed of sound in the mixture to that [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: Oxygen is 16 times heavier than hydrogen. Equal volume of hydrogen and oxygen are mixed. The ratio of speed of sound in the mixture to that in hydrogen is ,
The displacement y of a wave travelling in the x-direction is given by y=10−4sin(600t−2x+2π​) metres. Where x is expressed in metre and t in second. The speed of the wave motion,in m/s is
11
Nov
The displacement y of a wave travelling in the x-direction is given by y=10−4sin(600t−2x+2π​) metres. Where x is expressed in metre and t in second. The speed of the wave motion,in m/s is in m/s is The displacement y of a wave travelling in the x-direction is given by y=10−4sin(600t−2x+2π​) metres. Where x is expressed [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: in m/s is , The displacement y of a wave travelling in the x-direction is given by y=10−4sin(600t−2x+2π​) metres. Where x is expressed in metre and t in second. The speed of the wave motion ,
The linear density of a vibrating string is 10−4 kg/m. A transverse wave is propagating on the string and is described by the equation Y=0.021 sin(x+30t) where x and y are measured in meter and t in second. Tension in the string is
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Nov
The linear density of a vibrating string is 10−4 kg/m. A transverse wave is propagating on the string and is described by the equation Y=0.021 sin(x+30t) where x and y are measured in meter and t in second. Tension in the string is The equation of a wave is y = 5 sin (t0.04−x4) ; [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: The equation of a wave is y = 5 sin (t0.04−x4) ; where , x is in cm and t is in second. The maximum velocity of the particles of the medium is ,