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A cord, 6 m long and fixed at both ends, supports a standing wave with a total of 4 nodes. What is the wavelength of the standing wave?
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A cord, 6 m long and fixed at both ends, supports a standing wave with a total of 4 nodes. What is the wavelength of the standing wave?

User Maranas
by
5.3k points

2 Answers

3 votes

Answer:

Should be....

λ = 2(6)/3 = 4 m

Step-by-step explanation:

λ = 2L/n where n is the antinode

n = 3 instead of 4 (4 is where the wave crosses zero)

A cord, 6 m long and fixed at both ends, supports a standing wave with a total of-example-1
User Jagdeep Singh
by
5.7k points
3 votes

Answer:

The wavelength of the standing wave is 3 m.

Step-by-step explanation:

Given that,

Length = 6 m

Nodes = 4

We need to calculate the wave length

Using formula of nodes


L=(n)/(2)\lamda


\lambda=(2L)/(n)

Where, l = length

n = number of nodes


\lambda = wavelength

Put the value into the formula


\lambda=(2*6)/(4)


\lambda=3\ m

Hence, The wavelength of the standing wave is 3 m.

User Sasensi
by
5.2k points
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