A whistle emitting a sound of frequency ...

A whistle emitting a sound of frequency `440 H`z is tied to string of `1.5 m` length and rotated with an angular velocity of `20 rad//sec` in the horizontal plane. Then the range of frequencies heard by an observer stationed at a large distance from the whistle will `(v=330 m//s)`

400.0 Hz to 484.0 Hz

403.3 Hz to 480.0 Hz

400.0 Hz to 480.0 Hz

403.3 Hz to 484.0 Hz

Text Solution

Verified by Experts

The correct Answer is:

Frequency heard by the observes will be maxmum when the source is in position D. In this case, source will be approaching towards the stationary observer, almost along the line of sight (as observer is stationed at a larger distance.)
`n_(max)=(v)/(v-v_S)n`
`=(330xx440)/(330-1.5xx20)`
`=484Hz`
Similarly, frequency heard by the observer will be minimum when the source reaches at position B. Now, the source will be moving away from the observer.
`n_(min)=(v)/(v+v_S)xxn=(330)/(330+1.5xx20)xx440`
`=(330xx440)/(360)=403.3Hz`

Topper's Solved these Questions

SOUND WAVES AND DOPPLER EFFECT
CENGAGE PHYSICS|Exercise Multiple Correct|44 Videos
SOUND WAVES AND DOPPLER EFFECT
CENGAGE PHYSICS|Exercise Assertion-Reasoning|24 Videos
SOUND WAVES AND DOPPLER EFFECT
CENGAGE PHYSICS|Exercise Subjective|56 Videos
RIGID BODY DYNAMICS 2
CENGAGE PHYSICS|Exercise Interger|2 Videos
SUPERPOSITION AND STANDING WAVES
CENGAGE PHYSICS|Exercise Comprehension Type|5 Videos

Similar Questions

Explore conceptually related problems

A whistle emmitting a sound of frequency 440 Hz is tied to a string of 1.5m length and rotated with an angular velocity of 20rad s^(-1) in the horizontal plane. Calculate the range of frequencies heard by an observer stationed at a large distance from the whistle.

A whistle emitting a sound of frequency 440 h_(z) is tied to a string of 1.5 m length and roated with an angular velocity of 20 rad//s in the horizontal plane. Calculate the range of frequencies heard by an observer stationed at a larger distance from the whistle .(Speed of sound = 330 m//s) .

A whistle emitting a loud sound of frequency 540 Hz is whirled in a horizontal circle of radius 2 m and at a constant angular speed of 15 rad//s . The speed of sound is 330 m//s . The ratio of the highest to the lowest frequency heard by a listener standing at rest at a large distance from the center of the circle is

A whistle of frequency 540 Hz is moving in a circle of radius 2 ft at a constant angular speed of 15 rad//s. What are the lowest and height frequencies heard by a listener standing at rest, a long distance away from the centre of the circle? (velocity of sound in air is 1100 ft//sec .)

A whistle of frequency 540 Hz is moving in a circle of radius 2 ft at a constant angular speed of 15 rad/s. What are the lowest and highest frequencies heard by a listener standing at rest, a long distance away from the centre of the circle? (Velocity of sound in air is 1100ft/s)

A train approaching a hill at a speed of 40 km//hr sounds a whistle of frequency 580 Hz when it is at a distance of 1km from a hill. A wind with a speed of 40km//hr is blowing in the direction of motion of the train Find (i) the frequency of the whistle as heard by an observer on the hill, (ii) the distance from the hill at which the echo from the hill is heard by the driver and its frequency. (Velocity of sound in air = 1, 200 km//hr )

A whistle emitting a sound of frequency 450 Hz approaches a stationary observer at a speed of 33 m/s. Velocity of sound is 330 m/s. The frequency heard by the observer, in Hz, is :

A whistle of frequency 500 Hz tied to the end of a string of length 1.2 m revolves at 400 rev / min . A listener standing some distance away in the plane of rotation of whistle hears frequencies in the range (speed of sound = 340 m / s )

A whitle of frequency 540 Hz rotates in a horizontal circle of radius 2 m at an angular speed of 15(rad)/(s) . What is the lowest and the highest frequency heard by a listener a long distance away at rest with respect to the centre of the circle? (Velocity of sound in air is c=330(m)/(s) .)

CENGAGE PHYSICS-SOUND WAVES AND DOPPLER EFFECT-Single Correct

An observer moves towards a stationary source of sound with a speed ((...
Text Solution
|
A source of sound S is moving with a velocity of 50m//s towards a stat...
Text Solution
|
A whistle emitting a sound of frequency 440 Hz is tied to string of 1....
Text Solution
|
A band playing music at a frequency f is moving towards a wall at a sp...
Text Solution
|
A man standing on a platform hears the sound of frequency 604 Hz comin...
Text Solution
|
A vehicle , with a horn of frequency n is moving with a velocity of 30...
Text Solution
|
An isotropic stationary source is emitting waves of frequency n and wi...
Text Solution
|
A train is moving with a constant speed along a circular track. The en...
Text Solution
|
An observer moves towards a stationary source of sound, with a veloci...
Text Solution
|
An increase in intensity level of 1 dB implies an increase in intensit...
Text Solution
|
In expressing sound intensity we take 10^(-12)(W)/(m^2) as the referen...
Text Solution
|
The intensity level of two sounds are 100 dB and 50 dB. What is the ra...
Text Solution
|
An engine running at speed (v)/(10) sounds a whistle of frequency 600 ...
Text Solution
|
A source of sound produces waves of wavelength 60 cm when it is statio...
Text Solution
|
The apparent frequency of the whistle of an engine changes in the rati...
Text Solution
|
A source of sound S is travelling at (100)/(3)(m)/(s) along a road, to...
Text Solution
|
A source of sound is travelling with a velocity of 30(m)/(s) towards a...
Text Solution
|
A source of sound emits 200piW power which is uniformly distributed ov...
Text Solution
|
Two cars are moving on two perpendicular roads towards a crossing with...
Text Solution
|
A tuning fork of frequency 380 Hz is moving towards a wall with a velo...
Text Solution
|