5. A 0.5 m long titanium alloy wire has a diameter of 1.3 mm and a density of 4420 kg/m³. It is fixed at both ends and stretched with a tension of 250 N. Assuming that the initial displacement of the string is sinusoidal (zero initial velocity) as shown in Figure Q5, determine the frequency (in Hz) of the vibrating string. Fiquro OF

5. A 0.5 m long titanium alloy wire has a diameter of 1.3 mm and a density of 4420 kg/m³. It is fixed at both ends and stretched with a tension of 250 N. Assuming that the initial displacement of the string is sinusoidal (zero initial velocity) as shown in Figure Q5, determine the frequency (in Hz) of the vibrating string. Fiquro OF

Linear Algebra: A Modern Introduction

4th Edition

ISBN:9781285463247

Author:David Poole

Publisher:David Poole

Chapter6: Vector Spaces

Section6.7: Applications

Problem 18EQ

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Question

A 0.5 m long titanium alloy wire has a diameter of 1.3 mm and a density of 4420 kg/m³.
It is fixed at both ends and stretched with a tension of 250 N. Assuming that the initial
displacement of the string is sinusoidal (zero initial velocity) as shown in Figure Q5,
determine the frequency (in Hz) of the vibrating string.
5.
У
Figure Q5

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