June 2005 aqa physics paper question on stationary waves

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SUMMARY

The discussion focuses on the reflection of sound waves at the surface of water and the formation of stationary waves, particularly in the context of the AQA Physics paper from June 2005. Participants clarify that sound reflects back due to changes in medium, and the relevant equation for the first harmonic is f = 1/2l * √(tension/μ). It is established that multiple harmonics can correspond to the same frequency, and conversely, a single frequency can correspond to multiple lengths, which is crucial for understanding stationary waves.

PREREQUISITES
  • Understanding of wave mechanics and stationary waves
  • Familiarity with the first harmonic equation f = 1/2l * √(tension/μ)
  • Knowledge of harmonics and their relationship to frequency and length
  • Basic principles of sound reflection in different media
NEXT STEPS
  • Study the principles of sound wave reflection in various media
  • Explore the concept of harmonics in greater depth, including the second and third harmonics
  • Learn about the mathematical derivation of the first harmonic equation
  • Investigate the relationship between frequency, wavelength, and medium properties
USEFUL FOR

Students preparing for AQA Physics exams, educators teaching wave mechanics, and anyone interested in the principles of sound waves and harmonics.

bonbon22
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Homework Statement
http://downloads.umutech.net/Physics/Past_Papers/PA04/June%202005/Physics%20U4B%20QP%20June%202005.pdf

https://umutech.net/past_papers.html
to the right june 2005 section B first question if the first link does not work
Relevant Equations
First harmonic equation?
A couple of questions on this. How would the sound get reflected back from the surface of the water? And therefore create a stationary wave would the sound not travel though the water at a faster speed then reflect back and intefere? Or does a small amount of the sound reflect back? Part B mentions a frequency and two different lengths, so could it be possible to get the same frequency at two different haromics?
 
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bonbon22 said:
How would the sound get reflected back from the surface of the water?
Any change in medium causes some reflection. You can see yourself reflected in a pane of glass if you are lit as much as the view on the other side of the glass.
 
bonbon22 said:
Relevant Equations: First harmonic equation?
Why only the first harmonic?
 
haruspex said:
Why only the first harmonic?
In my aqa spec their is the first harmonic equation f=1/2l * square root (tension/meu) i relaise that to get the 2nd and third harmonics you have to simply times by the frequency, so i mentioned the first harmonic equation. Not sure where to start on part B however.
 
bonbon22 said:
to get the 2nd and third harmonics you have to simply times by the frequency
Times the frequency by what, exactly? The airspace is closed at one end and open at the other.
bonbon22 said:
where to start on part B
Since a given length can correspond to multiple frequencies (harmonics) it is also true that a given frequency can correspond to multiple lengths.
 

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