For a stationary wave y = 4 sin (pix//15...

For a stationary wave y =` 4 sin (pix//15) cos(96 pi t)`. This distance between a node and the next antinode is:

22.5 cm

30 cm

7.5 cm

15 cm

Text Solution

Verified by Experts

Topper's Solved these Questions

Superposition of Waves
CHETANA PUBLICATION|Exercise EXERCISE|86 Videos
Semiconductor
CHETANA PUBLICATION|Exercise EXERCISE|65 Videos
Thermodynamics
CHETANA PUBLICATION|Exercise EXERCISE|76 Videos

Similar Questions

Explore conceptually related problems

Explain formation of stationary wave on astretched string. Show that the distance between node and adjacent antinode is lambda//4 .

Stationary waves of frequency 300 Hz are formed in a medium in which the velocity of sound is 1200 metre / sec . The distance between a node and the neighbouring antinode is

If a stationary waves is incidnet on a rigid wall, then the distance between wall and first antinode is (its velocity is 36m/s and frequency 72 Hz)

If two waves, Y_1= 5 sin 2pi (2t - 0.02 x) and Y_2= 5 sin 2pi (2t- 0.02 x) in S.I. unit superposed to produce stationary waves. Determine the distance between node and next antinode.

A taut string at both ends viberates in its n^(th) overtone. The distance between adjacent Node and Antinode is found to be 'd'. If the length of the string is L, then

A string is vibrating in its fifth overtone between two rigid supports 2.4 m apart. The distance between successive node and antinode is

A simple harmonic progressive wave is represented by y= A sin (100pi t +3x) .The distance between two points on the wave at a phase difference of (pi)/(3) radian is

The stationary wave y = 2a sin kx cos omega t in a closed organ pipe is the result of the superposition of y = a sin (omega t - kx)

Two travelling waves y_1=Asin[k(x-ct)] and y_2=Asin[k(x+ct)] are superimposed on string. The distance between adjacent nodes is

The equation of sound wave travelling along negative X-direction is given by, y= 0.04 sin pi (500t +1.5x)m. The shortest distance between two particles having phase difference of pi at the same instant is

CHETANA PUBLICATION-Superposition of Waves-EXERCISE

A uniform wire of length 20 m and weighing 5 kg hangs vertically. The ...
Text Solution
|
The velocity of sound in air at room temperature is 350 m/s.Find the f...
Text Solution
|
For a stationary wave y = 4 sin (pix//15) cos(96 pi t). This distance ...
Text Solution
|
A sonometer wire resonates with a tuning fork. It itslength isincrease...
Text Solution
|
Standing waves are produced in10m long stretched string. If the string...
Text Solution
|
Two closed organ pipes, when sounded simultaneously gave 4 beats perse...
Text Solution
|
For a certain organ pipe, thre successive harmonics are 425 Hz, 595 Hz...
Text Solution
|
A string when stretched by a weight of 4 kg wt. gives a note of freque...
Text Solution
|
For an open metal pipe of length L the wavelength of the first overton...
Text Solution
|
Two tuning forks produce 5 beats//sec when sounded together. They can ...
Text Solution
|
For an closed metal pipe of length L the wavelength of the first overt...
Text Solution
|
An open organ pipe of length l and diameter d. If velocity of air is V...
Text Solution
|
The velocity of sound in air at room temperature is 350 m/s.Find the f...
Text Solution
|
The phase difference between the particles in successive loops of stat...
Text Solution
|
Acord stretched to a vibrating fork is divided into 6 loops when its t...
Text Solution
|
The third overtone of a closed organ pipe is found to be in unison wit...
Text Solution
|
A tube closed at one end containing air produces fundamental note of f...
Text Solution
|
The equation of a progressive wave traveling on a stretched string is ...
Text Solution
|
Two sound wave of wavelength 0.80 m and 0.81 m produce 8 beats per sec...
Text Solution
|
A progressive wave of frequency 570 Hz is travelling with velocity of ...
Text Solution
|