Calculating Frequency and Wavelength of Sound Waves in Water and Air

AI Thread Summary
The discussion centers on calculating the frequency and wavelength of sound waves produced by a 400.0 Hz tuning fork in both water and air at 25°C. It is clarified that the frequency remains constant regardless of the medium, while the wavelength can be determined using the formula λ = v/f, requiring the speed of sound in the respective medium. The speed of sound in water at 25°C is noted as 1493 m/s, while in air at 25°C, it is corrected to 346.3 m/s. Participants emphasize the importance of showing work when asking for help and correcting any misconceptions about sound speed. The conversation concludes with encouragement for the original poster to follow forum guidelines in future inquiries.
brokentruce
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i really had troubles with solving this problem and it would be greatly appreciated if i can get a full solution, thank you


A vibrating 400.0 Hz tuning fork is placed in fresh water. What is the frequency in hertz and the wavelength in metres.

a) within the water at 25 C
b) when the sound waves move into the air at 25 C?
 
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brokentruce said:
i really had troubles with solving this problem and it would be greatly appreciated if i can get a full solution, thank you


A vibrating 400.0 Hz tuning fork is placed in fresh water. What is the frequency in hertz and the wavelength in metres.

a) within the water at 25 C
b) when the sound waves move into the air at 25 C?

The frequency will be the same no matter the medium. For the wavelength, you must have seen \lambda = v/f so you need to know the speed of sound in the medium you are considering. You must have the values somewhere in your book or notes.
 
I'm afraid we do not give full solutions here. However, if you would like to post your work, we will be more than happy to guide you to the correct answer.

~H
 
1493 m/s is the speed for sounds iin water at 25 C
332 m/s is the speed for sounds in air at 0 C

So like i kno how to get the wavelength the only this that's throwing me off is that the frequency might be different although theoretically freqeuncy can only be changed from its source
 
brokentruce said:
freqeuncy can only be changed from its source

You are correct. You will need to correct your velocity in air though.

~H
 
brokentruce said:
1493 m/s is the speed for sounds iin water at 25 C
332 m/s is the speed for sounds in air at 0 C

So like i kno how to get the wavelength the only this that's throwing me off is that the frequency might be different although theoretically freqeuncy can only be changed from its source
As Hoot said, you should always include some of your work with your question. I answered because it was a simple question but I should have asked to see what you had tried first (this is to avoid having people come here to get their homework done without trying first).

You are correct, the frequency is fixed by the source. That does not depend on the medium. For the wavelength, I gave the formula (which hopefully you recognize!)
 
so leave the frequencies to be the same but just solve for the wavelength ....if so...THANK YOU SOOOOOOO MUCH this really helped
 
Sorry i am new to this, ill remember to abide by the rules the next time, wasnt aware of them
 
Don't forget to correct your velocity for air though!

~H
 
  • #10
the speed is correct infact because that's what the table in my book has...maybe u think that speed is at 0 C but is is in fact in 25 C
 
  • #11
The speed of sound is 346.3 m/s in air at 25oC.

~H
 
  • #12
brokentruce said:
Sorry i am new to this, ill remember to abide by the rules the next time, wasnt aware of them
No problem..and welcome!

Hoot wanted to make sure that you would use the speed in air at 25 C because in your post you quoted the value at 0 C.

good luck!
 
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