please thoroughly explain the concepts and steps used to solve the question!!!!
please thoroughly explain the concepts and steps used to solve the question!!!! 18. What is the...
Can someone please solve this?
When a 128 Hz tuning fork is used in the speed of sound experiment, the first resonance is found 65 cm from the top of the tube and the second is found 204.0cm from the top of the tube. Calculate the speed of sound from this data.
Please explain and show how to do the exercise (at the bottom),
parts b and c. Explain what you are substituting in the Doppler
equations and why. Also please explain what signs you have to
use.
EXAMPLE 14.11 Sour Notes Goal Apply the beat frequency concept. Problem A certain piano string is supposed to vibrate ning, what beat frequency is observed by the assistant? at a frequency of 4.40 X 102 Hz. To check its frequency, Note: Assume all numbers...
1. Students in a physics lab are asked to find the length of an air column in a tube close at one end that has a fundamental frequency of 341.3 Hz They hold the tube vertically and fill it with water to the top, then lower the water while a 341.3 Hz tuning fork is rung and listen for the first resonance. A. What is the air temperature if the resonance occurs for a length of 0.2483 m? (use velocity...
5. A person hums into the top of a well and hears that standing waves are established at frequencies of 42, 70, and 98 Hz. She happens to have a tuning fork with her. The 42 Hz frequency sound is not the fundamental (n 1) frequency. How deep is the well? Va 343 m/s. Hint: Overtones are the n > 1 multiples of the fundamental frequency. Determine the n 1 frequency of the well whch results in the given overtones....
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1) The fundamental frequency of a pipe that is open at both ends is 611 Hz. (Let the speed of sound be 344 m/s.) (a) How long is this pipe? (b) If one end is now closed, find the wavelength of the new fundamental. (c) If one end is now closed, find the frequency of the new fundamental. 2) A piano tuner stretches a steel piano wire with a tension of 800 N. The steel wire is...
Apps Problems Return to Blackboard Halliday, Fundamentals of Physics, 10e Help I Sy PRINTER VERSION BACK NEXT Question 5 The water level in a vertical glass tube 1.00 m long can be adjusted to any position in the tube. A tuning fork vibrating at 717 Hz is held just over the open top end of the tube, to set up a standing wave of sound in the air-filled top portion of the tube. (That air-filled top portion acts as a...
BACK NEXT Chapter 17, Problem 050 GO A tube 1.30 m long is closed at one end. A stretched wire is placed near the open end. The wire is 0.351 m long and has a mass of 9.70 g. It is fixed at both ends and oscillates in its fundamental mode. By resonance, it sets the air column in the tube into oscillation at that column's fundamental frequency. Assume that the speed of sound in air is 343 m/s, find...
Can you please explain all parts
I meant to ask this question
A block with a speaker bolted to it is connected to a spring having spring constant k = 24.0 N/m and oscillates as shown in the figure below. The total mass of the block and speaker is 3.00 kg, and the amplitude of this unit's motion is 0.500 m. The speaker emits sound waves of frequency 500 Hz. www (a) Determine the highest frequencies heard by the person...
explain please
*Question 160: Resonant Frequencies A piece of pipe is closed at one end and open at the other. The standing wave with the lowest frequency (the fundamental) occurs at frequency 100 Hz. What is the frequency of the first overtone (the next highest standing wave frequency)? Select one: a. 200 Hz b. 150 Hz c. No other standing waves are possible in a pipe open at one end only d. 67 Hz e. 300 Hz The correct answer...
Hello,
Please help with this multipart question :( need help
understanding
Question 3 The frequency driving an open-closed tube is steadily raised. Resonances are heard at 500 Hz and 700 Hz with none in between. What is the fundamental and next highest (n-2) harmonic frequency? Select the correct answer O 200 Hz, 300 Hz O 100 Hz, 300 Hz 200 Hz, 400 Hz our Answer O 100 Hz, 200Hz A speaker emits a sound of frequency f, which is received...