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Answer :
the ratio of the mass of the A string to that of the E string is 0.653.
How do we calculate?
the equation for the frequency of a vibrating string is given as :
f = (1/2L) * √(T/μ)
f_ = frequency of the string,
L= length of the string,
T= tension in the string, and
μ= linear mass density of the string
We know that the strings are all the same length and under essentially the same tension,
f1/√μ1 = f2/√μ2
f1= frequency of the A string,
μ1 = linear mass density of the A string,
f2= frequency of the E string, and
μ2= linear mass density of the E string.
440/√(m1/L) = 639/√(m2/L)
440/√m1 = 639/√m2
(440 * √m2)² = (639 * √m1)²
m2 = (639/440)² * m1
In conclusion, we have that the ratio of the mass of the A string to that of the E string is:
m1/m2 = 1/[(639/440)²]
m1/m = 0.653
Learn more about frequency at:
https://brainly.com/question/254161
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