A hospital uses an ultrasonic scanner to...

A hospital uses an ultrasonic scanner to locate tumour in a tissue. What is the wavelength of sound in a tissue in which the speed of sound is `1.7 km//s` ? The operating frequency of the scanner is `4.2 MHz`.

`4 xx 10^(-4) m`

`8 xx 10^(-3) m`

`4 xx 10_(-3) m`

` 8 xx 10^(-4)` m

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

WAVES AND SOUND
ERRORLESS |Exercise Progressive Waves|80 Videos
WAVES AND SOUND
ERRORLESS |Exercise Interference and Superposition of Waves|26 Videos
VECTORS
ERRORLESS |Exercise Exercise|223 Videos
WORK , ENERGY , POWER AND COLLISION
ERRORLESS |Exercise Self Evaluation Test|19 Videos

Similar Questions

Explore conceptually related problems

A hosptital uses an ultrasonic scanner to locate tumours in a tissue. What is the wavelength of sound in a tissue in which the speed of sound is 1.7 km//s ? The operating frequency of the scanner is 4.2 MHz .

A hospital uses an ultrasonic sound of frequency 1000 kHz tumours in a tissue. What is the wavelength of sound in the tissue in which the speed of sound is 1.7 kms^(-1) ? The operting frequency of the scanner is 4.2 MHz .

A hospital uses an ultrasonic scanner of frequency 3.2 MHz to locate the tumours in a tissue. The wavelength of ultrasonic waves in tissue in which the speed of the wave is 1.6 km/s is

A hospital uses an ultrasonic scanner to locate tumours in a tissue. The operating freqency of the scanner is 3.2 MHz. The speed of sound in a tissue is 1.6 km s^(-1) . The wavelength of sound in the tissue is

Sound travels with a speed of about 330 m/s. What is the wavelength of sound whose frequency is 660Hz.

Diagnostic ultrasound of frequency 3.80 MHz is used to examine tumors in soft tissue. (a) What is the wavelength in air of such a sound wave? (b) If the speed of sound in tissue is 1500 m/s, what is the wavelength of this wave in tissue?

The wavelength of sound emitted by a source is 1.7 xx 10^(-2)m . Calculate frequency of the sound, if its velocity is 343.4 ms^(-1) .

ERRORLESS -WAVES AND SOUND-SET

A hospital uses an ultrasonic scanner to locate tumour in a tissue. Wh...
Text Solution
|
An engine is moving on a circular track with a constant speed. It is b...
Text Solution
|
In a resonance tube, the first resonance is obtained when the level of...
Text Solution
|
To raise the pitch of a stringed musical instrument the player can
Text Solution
|
A wave travelling along positive x -axis is given by y = A sin (omega ...
Text Solution
|
The frequency of the first harmonic of a string stretched between two ...
Text Solution
|
A sound wave of wavelength 32 cm enters the tube at S as shown in the ...
Text Solution
|
The length of a sonometer wire between two fixed ends is 110cm. Where ...
Text Solution
|
Unlike a laboratory sonometer, a stringed instrument is seldom plucked...
Text Solution
|
If n(1), n(2 ) "and" n(3) are the fundamental frequencies of three seg...
Text Solution
|
The equation of stationary wave along a stretched string is given by y...
Text Solution
|
An Indian submarine and an enemy submarine move towards each other dur...
Text Solution
|
Two trains, one coming towards and another going away from an observer...
Text Solution
|
A source of sound emits 200piW power which is uniformly distributed ov...
Text Solution
|
A wave, y( (x, t))=0.03 sin pi(2t-0.01x) tavels in a medium. Here, x i...
Text Solution
|
A sine wave has an amplitude A and wavelength lambda. Let V be the wav...
Text Solution
|
A pipe open at both ends produces a note of frequency f(1) . When the ...
Text Solution
|
A man fires a bullet standing between two cliffs. First echo is heard ...
Text Solution
|
The equation for spherical progressive wave is (where r is the distanc...
Text Solution
|
A tuning fork A produces 4 beats/sec with another tuning fork B of fre...
Text Solution
|
The number of beats produced per second by two vibrations: x(1) = x(0)...
Text Solution
|