Question #46523

1 Answer
A08
Mar 27, 2017

20cm

Explanation:

Assuming that we are referring to the fundamental vibrational mode of the stretched string.

We know that in such a case the wavelength of the note is twice the length of the string.
L=lambda/2 ......(1)
It can be also be shown that
Wave velocity v=sqrt(T/rho)
where T is tension in the string and rho is mass per unit length of wire.

Using the wave equation and L as length of string, we get
Frequency f_1=v/lambda=sqrt(T/rho)/(2L) .....(2)

Case 1. Given 256=sqrt(T/rho)/(2xx80)
=>sqrt(T/rho)=256(2xx80) .....(3)

case 2. To find 1024=sqrt(T/rho)/(2xxL)
Since it is similar wire under similar tension, using (3) we get
1024=(256(2xx80))/(2xxL)
=>L=(256(2xx80))/(2xx1024)
=>L=20cm

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