Calculating Frequency Changes in a Guitar String

AI Thread Summary
To calculate frequency changes in a guitar string, the relationship between frequency, tension, length, and diameter is essential. For part a, reducing the tension from 289 N to 196 N will lower the frequency, as frequency is proportional to the square root of tension. For part b, using the formula provided, the calculated frequency for a 45 cm string under 168 N tension and 1 mm diameter is approximately 209.8 Hz. Clarification on the formula indicates that the tension values should be placed correctly in the square root fraction to ensure accurate results. Understanding these relationships is crucial for accurate frequency calculations in guitar strings.
Shaley
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A guitar string 60 cm in length, with a diameter of 1.4 mm and a tension of 289 N, emits a note with a frequence of 147 Hz. Find the frequency in each of the followig situations:

a)the tension isreduced to 196N
b)a string of the same material, 45 cm long and 1mm in diameter under 168 N of tension, is plucked.

I have no idea for a, but I was hoping someone could check my work on b?
=Fi(square root of tension fraction)(length fraction)(diameter fraction)
=147Hz(square root of 169/289)(60/45)(1.4/1)
=209.8Hz

I am just getting confused as to if the 289 goes on top of the fraction, or the 169.

thanks for your help in advance!
 
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It would help if you put units in the equations then you can easily check that you have them the correct way around.

frequency = sqrt ( Tension / mass per unit length )
s-1 = sqrt ( N / Kg m -1 )
s-1 = sqrt ( kg m s-2 / Kg m -1 ) = sqrt(s-2)
 
thankyou. Can you please help me with part a as well?
 
The frequency is proprtional to sqrt(tension)
 
thanks again
 
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