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A tightrope walker wants to know the tension used to support the rope that is suspended between two poles. The rope is 18 m long and has a mass of 12 kg. She creates a wave pulse by tapping on one end
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A tightrope walker wants to know the tension used to support the rope that is suspended between two poles. The rope is 18 m long and has a mass of 12 kg. She creates a wave pulse by tapping on one end of the rope and measures that it takes 2.7 s for the pulse to travel from one pole to the other. What is the tension in the rope?

User Zou Jeff
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8.2k points

1 Answer

5 votes

Answer:

T = 29.6 N

Step-by-step explanation:

length of the rope is

L = 18 m

mass of the rope is

m = 12 kg

now we have

mass per unit length of the rope is given as

[te]\lambda = \frac{12 kg}{18 m}[/tex]

now time taken by wave to reach from end to other


t = (L)/(v)


2.7 s = (18)/(v)


v = 6.67 m/s

now we have


v = \sqrt{(T)/(\lambda)}


6.67 = \sqrt{(T)/(0.67)}

so we will have


T = 29.6 N

User Sagar Kacha
by
7.8k points
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