Ask a New Question

Asked by anonymous

A pipe that is open at both ends will form standing waves. If properly excited, with antinodes near both ends of the pipe. Suppose we have an open pipe 40 cm in length.

What is the wavelength in meters of the sound waves that interfere to form the fundamental wave?

3 years ago

Answers

Answered by Anonymous
plus at one end, minus at the other
wavelength = 1/2 pipe length = 20 cm = 0.20 meters
3 years ago

Related Questions

An organ pipe is open at both ends. It is producing sound at its sixth harmonic, the frequency of wh... An organ pipe is open at both ends. It is producing sound at its sixth harmonic, the frequency of wh... An organ pipe is open at both ends. It is producing sound at its sixth harmonic, the frequency of wh... A two end open pipe organ's 5th harmonic produces a frequency of 260 Hz. If it is 23 degrees Celsius... When a metal pipe (open at both ends) is cut into two pieces, the lowest resonance frequency in one... A pipe that is open at both ends has a fundamental frequency of 330 Hz when the speed of sound in ai... An organ pipe that is open a t both ends has a fundamental frequency of 382 Hz. What is the length o... A pipe is open at both ends. The pipe has resonant frequencies of 655 Hz and 786 Hz (among others).... A pipe has one end open and the one end closed. Where must the node be located in order for a standi... An organ pipe, open at both ends, resonates at its first resonant length with a frequency of 128 Hz....
Ask a New Question
Archives Contact Us Privacy Policy Terms of Use