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Question

A transverse wave is described by y=0.02msin1.0m-1x+30s-1t propagates on a stretched string having a linear mass density of 1.2×10-4kgm. find the tension in the string.


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Solution

Step1: Given data and assumptions.

Transverse equation, y=0.02msin1.0m-1x+30s-1t

Linear mass density, ρ=1.2×10-4kgm

Step2: Find the tension in the string.

Formula used;

T=ρv2

Where, T is the tension, ρ is the density, and v is the velocity

We have,

y=0.02msin1.0m-1x+30s-1t …..i

Since from equation i we get,

Angular frequency, ω=30s-1

And constant, k=1.0m-1

Therefore,

ω=30

2πf=30 ω=2πf

f=302π …….ii

Also,

k=1.0

2πλ=1.0

λ=2π1.0 …….iii

Then the velocity of the wave in the stretched string.

v=λf

v=2π1×302π

v=30ms

v=30ms ..…..iv

Now,

T=ρv2

T=1.2×10-4×302

T=0.108N

Hence, the tension in the string is 0.108N


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