Home
Class 11
PHYSICS
The figure shows a snap photograph of a ...

The figure shows a snap photograph of a vibrating string at `t = 0`. The particle `P` is observed moving up with velocity `20sqrt(3) cm//s`. The tangent at `P` makes an angle `60^(@)` with x-axis.

(a) Find the direction in which the wave is moving.
(b) Write the equation of the wave.
(c) The total energy carries by the wave per cycle of the string. Assuming that the mass per unit length of the string is `50g//m`.

Text Solution

Verified by Experts

The correct Answer is:
(i) Negative x
(ii) `y = 0.4 sin (10 pi t + (pi)/(2) x + (pi)/(4))`
(x,y are in cm)
(iii) `1.6 xx 10^(-5) J`
(i) For the particle P
`(dely)/(delt)=-v((dely)/(delx))rArr +20sqrt(3)=v(sqrt(3))`
`rArrv=-20cm//s`
(along negative x-axis)
(ii) Equation of wave
`y=Asin(omegat+kx+phi)`
at`t =0,x=0,y=2sqrt(2),A=4`
`rArr4=2sqrt(2)sinphirArrphi=(pi)/(4),lamda=5.5-1.5=4cm`
`f=(v)/(lamda)=(20 cm//s)/(4cm)=5Hz`
`:.y=4sin(10pit+(pix)/(2)+(pi)/(4))`
(iii) Energy carried in one wavelength
`E=(1)/(2)muA^(2)omega^(2)lamda`
`=(1)/(2)xx(50)/(1000)xx(4xx10^(-2))^(2)xx(10pi)^(2)xx(4)/(100)`
`=16 pi^(2) xx 10^(-5) J`
Promotional Banner

Topper's Solved these Questions

  • WAVES AND OSCILLATIONS

    ALLEN|Exercise Part-1(Exercise-05)[A]|28 Videos

  • WAVES AND OSCILLATIONS

    ALLEN|Exercise Part-1(Exercise-05)[B]|42 Videos

  • WAVES AND OSCILLATIONS

    ALLEN|Exercise Part-1(Exercise-04)[A]|29 Videos

  • SEMICONDUCTORS

    ALLEN|Exercise Part-3(Exercise-4)|51 Videos

Similar Questions

Explore conceptually related problems

The figure shows a snap photogaraph of a vibrating string at t = 0. The particle P is observed moving up with velocity 2sqrt3 cm/s. The tangent at P makes an angle 60^@ with x-axis. The mass per unit length of string is 50 g/m

A transverse wave is travelling on a string. The equation of the wave

A wave y = a sin (omegat - kx) on a string meets with another wave producing a node at x = 0 . Then the equation of the unknown wave is

When a wave moves in the direction of the vibrating Particles, it is called a longitudinal wave.

The following figure shows a wave propagating in a string. The speed of point A, which is 3 cm above the mean position is 7sqrt(3)picm//s at the moment shown. What is the speed of the wave in m/s?

A wave pulse is travelling on a string with a speed v towards the positive X-axis. The shape of the string at t = 0 is given by g(x) = A sin(x /a) , where A and a are constants. (a) What are the dimensions of A and a ? (b) Write the equation of the wave for a general time 1, if the wave speed is v.

Figure shows a plot of the transverse displacements of the particles of a string at t = 0 through which a travelling wave is passing in the positive x-direction. The wave speed is 20 cms^-1 . Find (a) the amplitude, (b) the wavelength, (c) the wave number and (d) the frequency of the wave. .

Figure shows a snapshot of a sinusoidal travelling wave taken at t= 0.3 s .The wavelength is 7.5 cm and the amplitude is 2 cm . If the crest P was at x= 0 at t = 0 , write the equation of travelling wave. ,

The frequency of the wave propagating on a string is 20 Hz . What will be the difference in phase of a particle of the string in a time interval of 0.01 s ?

Figure shows a plot of the transverse displacement of the particle of a string at t = 0 through which a travelling wave is passing in the positive in the positive x-direction. The wave speed is 20cm//s . Find (a) the amplitude (b) the wavelength (c) the wave number and (d) the frequency of the wave.