A closed organ pipe of radius r_1 and an open organ pipe of radius r_2 and having same length 'L' resonate when excited with a

Q: A closed organ pipe of radius $r_1$ and an open organ pipe of radius $r_2$ and having same length $'L'$ resonate when excited with a given tunning fork. Closed organ pipe resonates in its fundamental mode where as open organ pipe resonates in its first overtone, then

c For closed organ pipe with end correction: Frequency of different modes, $\nu_{n}^{\prime}=\frac{(2 n-1) v}{4\left(L+0.6 r_{1}\right)} \quad$ where $0.6 r_{1}$ is the end correction Now for fundamental mode i.e $n=1, \quad \nu_{1}^{\prime}=\frac{v}{4\left(L+0.6 r_{1}\right)}$ For open organ pipe with end correction: Frequency of $m^{t h}$ mode, $\nu_{m}=\frac{m v}{2\left(L+2 \times 0.6 r_{2}\right)} \quad$ where $0.6 r_{2}$ is the end correction on one side. Now for first overtonei.e $m=2, \quad \nu_{2}=\frac{2 v}{2\left(L+1.2 r_{2}\right)}$ But $\quad \nu_{1}^{\prime}=\nu_{2}$ $\frac{v}{4\left(L+0.6 r_{1}\right)}=\frac{2 v}{2\left(L+1.2 r_{2}\right)}$ $L+1.2 r_{2}=4 L+2.4 r_{1} \Longrightarrow r_{2}-2 r_{1}=2.5 L$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A closed organ pipe of radius $r_1$ and an open organ pipe of radius $r_2$ and having same length $'L'$ resonate when excited with a given tunning fork. Closed organ pipe resonates in its fundamental mode where as open organ pipe resonates in its first overtone, then

A$r_2- r_1 = L$
B$r_2- r_1 = L/2$
C$r_2- 2r_1 = 2.5 L$
D$2r_2- r_1 = 2.5 L$

Advanced

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 police car with a siren of frequency $8$ $kHz$ is moving with uniform velocity $36$ $km/hr$ towards a tall building which reflects the sound waves. The speed of sound in air is $320$ $m/s$. The frequency of the siren heard by the car driver is .... $kHz$
View Solution
2
A narrow tube is bent in the form of a circle of radius $R,$ as shown in the figure. Two small holes $S$ and $D$ are made in the tube at the positions right angle to each other. A source placed at $S$ generated a wave of intensity $I_0$ which is equally divided into two parts : One part travels along the longer path, while the other travels along the shorter path. Both the part waves meet at the point $D$ where a detector is placed The maximum value of $\lambda$ to produce a minima at $D$ is given by
View Solution
3
The frequency of a sonometer wire is $f$, but when the weights producing the tensions are completely immersed in water the frequency becomes $f/2$ and on immersing the weights in a certain liquid the frequency becomes $f/3$. The specific gravity of the liquid is:
View Solution
4
If at $STP$, velocity of sound in a gas $(\gamma=1.5)$ is $600 \,m / s$, the $r.m.s.$ velocity of the gas molecules at $STP$ will be ........... $m / s$
View Solution
5
A parallel beam of light is incident on a tank filled with water up to a height of $61.5 \,mm$ as shown in the figure below. Ultrasonic waves of frequency $0.5 \,MHz$ are sent along the length of the water column using a transducer placed at the top and they form longitudinal standing waves in the water. Which of the schematic plots below best describes the intensity distribution of the light as seen on the screen? (Take, the speed of sound in water to be $1500 \,m / s$ )
View Solution
6
Standing waves are produced in a $10 \;m$ long stretched string. If the string vibrates in $5$ segments and the wave velocity is $20\; m/s$, the frequency is ... $Hz$
View Solution
7
Sound waves travel fastest in
View Solution
8
Two waves are propagating along a taut string that coincides with the $x-$axis. The first wave has the wave function $y_1 = A cos [k(x - vt)]$ and the second has the wave function $y = A cos [k(x + vt) + \phi ]$.
View Solution
9
If the pressure amplitude in a sound wave is tripled, then the intensity of sound is increased by a factor of
View Solution
10
A narrow tube is bent in the form of a circle of radius $R,$ as shown in the figure. Two small holes $S$ and $D$ are made in the tube at the positions right angle to each other. A source placed at $S$ generated a wave of intensity $I_0$ which is equally divided into two parts : One part travels along the longer path, while the other travels along the shorter path. Both the part waves meet at the point $D$ where a detector is placed The maximum intensity produced at $D$ is given by
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free