The frequency of a tunning fork is 384 per second and velocity of sound in air is 352 m/s. How far the sound has traversed

Q: The frequency of a tunning fork is $384$ per second and velocity of sound in air is $352 m/s$. How far the sound has traversed while fork completes $36$ vibration .... $m$

d (d) $\lambda = \frac{v}{n} = \frac{{352}}{{384}}$; during $1$ vibration of fork sound will travel $\frac{{352}}{{384}}m$ during $36$ vibration of fork sound will travel $\frac{{352}}{{384}} \times 36 = 33\,m$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The frequency of a tunning fork is $384$ per second and velocity of sound in air is $352 m/s$. How far the sound has traversed while fork completes $36$ vibration .... $m$

A$3$
B$13$
C$23$
D$33$

Medium

STD 11 Science
NEET
STD 11 - 14. waves and sound
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
An observer standing near the sea shore observes $54$ waves per minute. If the wavelength of the water wave is $10m$ then the velocity of water wave is .... $ms^{-1}$
View Solution
2
A tuning fork and a sonometer wire were sounded together and produce $4$ beats per second. When the length of sonometer wire is $95 cm$ or $100 cm,$ the frequency of the tuning fork is ..... $Hz$
View Solution
3
In the standing wave shown, particles at the positions $A$ and $B$ have a phase difference of
View Solution
4
In a plane progressive harmonic wave, particle speed is always less than the wave speed, if
View Solution
5
A vibrating string of certain length $l$ under a tension $T$ resonates with a mode corresponding to the first overtone (third harmonic) of an air column of length $75\, cm$ inside a tube closed at one end. The string also generates $4\, beats$ per second when excited along with a tuning fork of frequency $n$. Now when the tension of the string is slightly increased the number of beats reduces to $2\, per second$. Assuming the velocity of sound in air to be $340\, m/s$, the frequency $n$ of the tuning fork in $Hz$ is
View Solution
6
This question has Statement $1$ and Statement $2$ .Of the four choices given after the Statements, choose the one that best describes the two Statements.
Statement $1$ : Bats emitting ultrasonic waves can detect the location of a prey by hearing the waves reflected from it.
Statement $2$ : When the source and the detector are moving, the frequency of reflected waves is changed
View Solution
7
A stretched string of length $l,$ fixed at both ends can sustain stationary waves of wavelength $\lambda ,$ given by
View Solution
8
An engine whistling at a constant frequency $n_0$ and moving with a constant velocity goes past a stationary observer. As the engine crosses him, the frequency of the sound heard by him changes by a factor $f$. The actual difference in the frequencies of the sound heard by him before and after the engine crosses him is
View Solution
9
A string fixed at both the ends is vibrating in two segments. The wavelength of the corresponding wave is
View Solution
10
A wire of length one metre under a certain initial tension emits a sound of fundamental frequency $256 \,Hz$. When the tension is increased by $1 \,kg$ wt, the frequency of the fundamental node increases to $320 \,Hz$. The initial tension is ........... $kg \,wt$
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free