In travelling waves, the relation betwee...

In travelling waves, the relation between particle velocity `V_(p)`, wave velocity V wave shape slope m is given by

`V_(p)=-vxxm`

`V_(p)=Vxxm`

`V=-V_(p)xxm`

`V=V_(p)xxm`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

WAVES
AAKASH INSTITUTE ENGLISH|Exercise Assignment (Section-C)|11 Videos
WAVES
AAKASH INSTITUTE ENGLISH|Exercise Assignment (Section-D)|9 Videos
WAVES
AAKASH INSTITUTE ENGLISH|Exercise Assignment (Section-A)|55 Videos
WAVE OPTICS
AAKASH INSTITUTE ENGLISH|Exercise Assignment (Section-J (Aakash Challengers question))|1 Videos
WORK, ENERGY AND POWER
AAKASH INSTITUTE ENGLISH|Exercise Assignment (SECTION - D)|13 Videos

Similar Questions

Explore conceptually related problems

The relation between the particles velocity and wave velocity is -

How does particle velocity differ from wave velocity?

(a) Obtain the relation connecting particle velocity and wave velocity. (b) What is wavefunction? What is its significance ? (c) When a longitudinal wave passes through a medium (liquid or gas) write down the expression for the pressure amplitude of the wave.

What is meant by (i) particle velocity and (ii) wave velocity. How are they related ?

The angle between wave velocity and particle velocity in a travelling wave be

The equation of a travelling wave is, Y = A sin 2pi (pt-x//5) Then the ratio of maximum particle velocity to wave velocity is,

(a) Taking equation of a palne progressive wave as y=alphasin.(2pi)/(gamma)(vt-x) . Write down the expression for the paticle velocity. Show that the particle veloity at a point = "wave velocity" xx "slope of the displacement curve at the point" .

A travelling wave has the frequency upsilon and the particle displacement amplitude A . For the wave the particle velocity amplitude is ………………… and the particle acceleration amplitude is ……………………..

The electromagnetic waves travel in free space with the velocity of

AAKASH INSTITUTE ENGLISH-WAVES-Assignment (Section-B)

For an organ pipe, four of the six harmonics of frequency less than 10...
Text Solution
|
A thick uniform rope of length L is hanging from a rigid support. A tr...
Text Solution
|
Third overtone of a closed organ pipe is in unison with fourth harmoni...
Text Solution
|
The string of a violin emits a note of 205 Hz when its tension is corr...
Text Solution
|
A whistle 'S' of frequency v revolves in a circle of radius R at a con...
Text Solution
|
Two sinusoidal waves given below as superposed y1= A sin ( kx - o...
Text Solution
|
Two vibrating tuning forks producing waves given by y(1) = 27 "sin" 60...
Text Solution
|
In a stationary wave, all particles of the medium cross the mean posit...
Text Solution
|
The figure shows the snapshot of a travelling sine wave in a string. F...
Text Solution
|
A wave moves with a certain speed in a stretched string. The percentag...
Text Solution
|
The ratio of intensities of two waves is 2. the ratio of intensities o...
Text Solution
|
n identical coherent waves each with the same initial phase arrive at ...
Text Solution
|
What is the phase difference between particles being on either side of...
Text Solution
|
The amplitude of a wave represented by the equation y=3sin(5x-0.5t)+4c...
Text Solution
|
The difference between the frequencies of the third and fifth harmonic...
Text Solution
|
A source of sound of frequency f(1) is placed on the ground. A detecto...
Text Solution
|
A whistle of frequency 500 Hz tied to the end of a string of length 1....
Text Solution
|
The ratio of intensities between two coherent sound sources is 4:1 the...
Text Solution
|
In travelling waves, the relation between particle velocity V(p), wave...
Text Solution
|
Assertion : The interference of two identical waves moving in same dir...
Text Solution
|