A closed orgain pipe has length 'l’. The air in it is vibrating in 3^{rd} overtone with maximum displacement amplitude 'a’. The displacement amplitude at

Q: A closed orgain pipe has length $'l’$. The air in it is vibrating in $3^{rd}$ overtone with maximum displacement amplitude $'a’$. The displacement amplitude at distance $l / 7$ from closed end of the pipe is:

b closed organ pipe is in third overtone so total length will be equal to $\frac{\lambda \times 7}{4} .$ so, $\frac{\lambda \times 7}{4}=L$ $\frac{L}{7}=\frac{\lambda}{4}$ amplitude at $\frac{\lambda}{4}$ from the closed end is maximum so amplitude at $\frac{L}{7}$ is $a.$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A closed orgain pipe has length $'l’$. The air in it is vibrating in $3^{rd}$ overtone with maximum displacement amplitude $'a’$. The displacement amplitude at distance $l / 7$ from closed end of the pipe is:

A$0$
B$a$
C$a / 2$
D
none of these

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
A transverse wave is represented by

$y = \frac{{10}}{\pi }\,\sin \,\left( {\frac{{2\pi }}{T}t - \frac{{2\pi }}{\lambda }x} \right)$

For what value of the wavelength the wave velocity is twice the maximum particle velocity ..... $cm$ ?
View Solution
2
In an experiment to determine the velocity of sound in air at room temperature using a resonance is observed when the air column has a length of $20.0 \,cm$ for a tuning fork of frequency $400 \,Hz$ is used. The velocity of the sound at room temperature is $336 \,ms ^{-1}$. The third resonance is observed when the air column has a length of ......... $cm$
View Solution
3
Two closed organ pipes, when sounded simultaneously gave $4$ beats per sec. If longer pipe has a length of $1m$. Then length of shorter pipe will be, ... $cm$ $(v = 300 m/s)$
View Solution
4
Ultrasonic signal sent from $SONAR$ returns to it after reflection from a rock after a lapse of $1 \,sec.$ If the velocity of ultrasound in water is $1600 ms^{-1}$, the depth of the rock in water is ..... $m$
View Solution
5
$Assertion :$ The pitch of wind instruments rises and that of string instruments falls as an orchestra warms up.
$Reason :$ When temperature rises, speed of sound increases but speed of wave in a string fixed at both ends decreases.
View Solution
6
A string fixed at both the ends is vibrating in two segments. The wavelength of the corresponding wave is
View Solution
7
A source of sound $A$ emitting waves of frequency $1800\,Hz$ is falling towards ground with a terminal speed $v.$ The observer $B$ on the ground directly beneath the source receives waves of frequency $2150\,Hz.$ The source $A$ receives waves, reflected from ground of frequency nearly ..... $Hz$ (Speed of sound $= 343\,m/s$ )
View Solution
8
Newton assumed that sound propagation in a gas takes under
View Solution
9
Ultrasonic, Infrasonic and audible waves travel through a medium with speeds ${V_u},\,{V_i}$ and ${V_a}$ respectively, then
View Solution
10
Two sound waves having a phase difference of $60°$ have path difference of
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free