A sinusoidal transverse wave of amplitud...

A sinusoidal transverse wave of amplitude `10^(-2)` m, wavelength `lambda`, frequency f is travelling with speed (V = 20 m/s) on a stretched string. If the maximum speed at any point of the string is `(V)/(5)` then find the frequency and wavelength of the wave.

Text Solution

AI Generated Solution

To solve the problem step by step, we will follow the concepts of wave motion and the relationships between amplitude, frequency, wavelength, and wave speed. ### Step 1: Understand the given parameters We are given: - Amplitude (A) = \(10^{-2}\) m - Speed of the wave (V) = 20 m/s - Maximum speed at any point of the string = \(V/5\) ...

Topper's Solved these Questions

WAVES
MODERN PUBLICATION|Exercise REVISION EXERCISES|107 Videos
WAVES
MODERN PUBLICATION|Exercise MULTIPLE CHOICE QUESTIONS|88 Videos
WAVES
MODERN PUBLICATION|Exercise NCERT EXEMPLAR PROBLEMS|31 Videos
UNITS AND MEASUREMENT
MODERN PUBLICATION|Exercise CHAPTER PRACTICE TEST|15 Videos
WORK, ENERGY AND POWER
MODERN PUBLICATION|Exercise Chapter Practice Test|16 Videos

Similar Questions

Explore conceptually related problems

A transverse sinusoidal wave of amplitude A, wavelength lamda and frequency f is travelling along a stretch string. The maximum speed of any point on the string is (v)/(10) , where, V is the velocity of wave propagation. If A=10^(-3)m, and V=10ms^(-1) , then lamda and f are given by

A transverse sinusoidal wave of amplitude a, wavelength lambda and frequency f is travelling on a stretched string. The maximum speed of any point in the string is v//10 , where v is the speed of propagation if the wave. If a = 10^(-3)m and v = 10ms^(-1) , then lanbda and f are given by

A transverse wave of amplitude 0.50 m, wavelength 1 m and frequency 2 hertz is propagating in a string in the negative x-direction. The expression form of the wave is

A transverse wave, whose amplitude is 0.5 m wavelength is 1 m and frequency is 2Hz. is travelling along positive x direction. The equation of this wave will be-

A transverse wave of amplitude 2 m, wavelength 4 m and frequency 6 Hz is propagating in a string toward positive y-direction. The equation of the wave may be (y is in m and t is in s)

For the wave shown in the figure, the frequency and wavelength if its speed is 320 m/s are

A transverse wave of amplitude 0.5 m and wavelength 1 m and frequency 2 Hz is propagating in a string in the negative x - direction. The expression for this wave is [

If the speed of a transverse wave on a stretched string of length 1 m is 60 m s^-1 , what is the fundamental frequency of vibration ?

A sinusoidal transverse wave is traveling on a string. Any point on the string

MODERN PUBLICATION-WAVES-HIGH ORDER THINKING SKILLS & ADVANCED LEVEL

The second overtone of an open organ pipe beats with the third overton...
Text Solution
|
A guard on duty observes a fall of 25% in the pitch of the silencer of...
Text Solution
|
A piezoelectric quartz plate of thickness 5mm is vibrating is resonanc...
Text Solution
|
A source of sound of frequency 256 Hz is rotating in a circle of radiu...
Text Solution
|
Two wires are stretched under tension of T(1) and T(2) such that T(2) ...
Text Solution
|
A sinusoidal transverse wave of amplitude 10^(-2) m, wavelength lambda...
Text Solution
|
An ideal gas expands from an initial temperature T(1) to a final tempe...
Text Solution
|
A wire when stretched between two rigid supports under a tension of 60...
Text Solution
|
From two identical wires, a rod XY of length l is hung. A wooden block...
Text Solution
|
Three sinusoidal displacements are applied in X-direction to a point m...
Text Solution
|
From a rigid support, a rope of mass M is hung vertically. To the free...
Text Solution
|
Two identical wires are put under same tension and have same frequency...
Text Solution
|
The frequency of two continuous overtones of a vibrating string are 29...
Text Solution
|
Two sound waves are originating from a single source. They are travell...
Text Solution
|
6 beats are produced in 3 seconds by two tuning forks T and T'. T reso...
Text Solution
|