Waves on a Cylinder - Solutions & Analysis

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Homework Statement



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Homework Equations





The Attempt at a Solution



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Not sure what they mean by general superposition of solutions...Do i use D'alembert's solution whereby I assume initial velocity = 0, and therefore:

z = z(θ-ct) + z(θ+ct)
 
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Why are you restricting k to positive integers only?


unscientific said:
Not sure what they mean by general superposition of solutions...Do i use D'alembert's solution whereby I assume initial velocity = 0, and therefore:

z = z(θ-ct) + z(θ+ct)

I don't understand the assumption of zero initial velocity.
You want to construct a specific superposition of solutions for ω2 that will create a "node" at θ = π/3.
 
TSny said:
Why are you restricting k to positive integers only?




I don't understand the assumption of zero initial velocity.
You want to construct a specific superposition of solutions for ω2 that will create a "node" at θ = π/3.

i'm not sure how to create that superposition do i use A1*exp(kθ-ωt) + A2*exp(k+ωt) or something?
 
What are the two values of k corresponding to ω2?

Superimpose two waves with those values of k. Note that you do not want to change the sign of the ωt term in the exponential. After forming the superposition, you will be able to factor out a common factor of e-iωt.

You might want to review the concept of "standing waves"on a string.
 
TSny said:
What are the two values of k corresponding to ω2?

Superimpose two waves with those values of k. Note that you do not want to change the sign of the ωt term in the exponential. After forming the superposition, you will be able to factor out a common factor of e-iωt.

You might want to review the concept of "standing waves"on a string.

The '-ωt' term involves the velocity of the wave, so you must superimpose:

A1*ei(-kx-ωt) + A2*ei(kx-ωt)

so that the waves destructively superimpose.
 
v60z9e.png


Is this correct??
 
That looks good to me. You want to limit the value of n such that you don't repeat the same positions on the cylinder.
 

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