1 Answer

Ivan Vargas · Answer 1 · 2020-08-17T02:58:49+0000

Answer:

beat frequency = 13.87 Hz

Step-by-step explanation:

given data

lengths l = 2.00 m

linear mass density μ = 0.0065 kg/m

String A is under a tension T1 = 120.00 N

String B is under a tension T2 = 130.00 N

n = 10 mode

to find out

beat frequency

solution

we know here that length L is

L = n ×
$( \lambda )/(2)$ ........1

so λ =
(2L)/(10)

and velocity is express as

V =
$\sqrt{(T)/(\mu ) }$ .................2

so

frequency for string A = f1 =
$(V1)/(\lambda)$

f1 =
$\frac{\sqrt{(T)/(\mu ) }}{(2L)/(10)}$

f1 =
$(10)/(2L) \sqrt{(T1)/(\mu ) }$

and

f2 =
$(10)/(2L) \sqrt{(T2)/(\mu ) }$

so

beat frequency is = f2 - f1

put here value

beat frequency =
$(10)/(2*2) \sqrt{(130)/(0.0065)}$ -
$(10)/(2*2) \sqrt{(120)/(0.0065) }$

beat frequency = 13.87 Hz

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