Find the fundamental , first overtone an...

Find the fundamental , first overtone and second overtone frequencies of a pipe , open at both the ends , of length 25 cm if the speed of sound in air is `330 m/s`.

Topper's Solved these Questions

Superposition of Waves
CHETANA PUBLICATION|Exercise EXERCISE|86 Videos
Semiconductor
CHETANA PUBLICATION|Exercise EXERCISE|65 Videos
Thermodynamics
CHETANA PUBLICATION|Exercise EXERCISE|76 Videos

Similar Questions

Explore conceptually related problems

Distinguish between harmonics and overtones. Find the fundamental and second overtone frequencies of a pipe open at both ends of length 25cm if the speed of sound in air is 330 m//s .

Find the fundamental frequency of a closed pipe, if the length of the air column is 42 m . (speed of sound in air = 332 m/sec )

Find the frequency of fifth overtone of an air column vibrating in a pipe closed at one end. Length of pipe is 42.10 cm 1on and speed of sound in air at room temperature is 350 m/s .

What is the fundamental frequency of vibration of an air column in a glass tube 30 cm long if. Both the ends of the tube are open? Velocity of sound in air = 360 m//s

The fundamental frequency of a closed organ pipe of length 20 cm is equal to the second overtone of an organ pipe open at both the ends. The length of organ pipe open at both the ends is

An organ pipe of length 0.4 m is open at both ends . The speed of sound in air is 340 ms^-1 . The fundamental frequency is

Find the frequency of third overtone of an air column vibrating in a pipe 43.75 cm long and closed at one end .Velocity of sound in air is 350 m/s .

The fundamental frequency of an air column in a pipe closed at one end is 100 Hz. If the same pipe is open at both the ends, the frequencies produced in Hz are

The speed of the sound in air at 0 ^@C is 332m//s . Find the speed of sound in air at 10^@C .

CHETANA PUBLICATION-Superposition of Waves-EXERCISE

Find the fundamental , first overtone and second overtone frequencies ...
Text Solution
|
Distinguish between progressive waves and stationary waves .
Text Solution
|
Distinguish between stationary waves and beat.
Text Solution
|
If two wavs, Y1 =5 sin pi(4t-0.02x) and Y2 = 5sin pi (4t+0.02 x) in S....
Text Solution
|
If two wavs, Y1 = 5sin 2pi (2t-0.02 x) and Y2 = 5sin 2pi (2t-0.02 x) i...
Text Solution
|
If two waves, Y1= 5 sin 2pi (2t - 0.02 x) and Y2= 5 sin 2pi (2t - 0.02...
Text Solution
|
If two wavs, Y1 = 5sin 2pi (2t-0.02 x) and Y2 = 5sin 2pi (2t-0.02 x) i...
Text Solution
|
If two waves, Y1= 5 sin 2pi (2t - 0.02 x) and Y2= 5 sin 2pi (2t- 0.02 ...
Text Solution
|
The velocity of a transverse wave on a string of length 0.5 is 225 m/...
Text Solution
|
A wire of length 0.5 m is stretched by a weight of 2 kg. If the mass p...
Text Solution
|
A wire under a certain tension gives a note of fundamental frequency 3...
Text Solution
|
Two wires of the same material and of the same diameter have their len...
Text Solution
|
A tuning fork gives 4 beats per second with a sonometer wire under ten...
Text Solution
|
A length of sonometer wire under constant tension when sounded with a ...
Text Solution
|
A length of 34 cm of a sonometer wire gives 5 beats per second with a ...
Text Solution
|
The difference between the frequencies of the first and second overton...
Text Solution
|
What is the Fundamental frequency of vibration of an air column in a g...
Text Solution
|
What is the fundamental frequency of vibration of an air column in a ...
Text Solution
|
Velocity of sound in air at room temperature is 333 m//s. An air colum...
Text Solution
|
Velocity of sound in air is 333 m/s.Length of air column in pipe is 33...
Text Solution
|
Two open pipes of lengths 50 cm and 51 cm produce 6 beats per second w...
Text Solution
|