Matter Waves: Phase vs Group Velocity Equation

rg414
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Homework Statement



In a particular substance the phase velocity of the waves is proportional to the reciprocal of the wavelength. If vp represents the central phase velocity of a wave group and vg represents the group velocity, which of the following equations is valid?


Homework Equations



(A) vg = 1/vp
(B) vg = ½ vp
(C) vg = vp
(D) vg = 2 vp
(E) vg = 4 vp


The Attempt at a Solution



I'm having a hard time finding relevant information on this question. I believe the answer is C. If anyone can help me to further understand this problem, I would appreciate the help.
 
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I think that
<br /> v_p=\frac{w}{k}=a \frac{1}{\lambda}.<br />

We get from this
<br /> w=a \frac{k}{\lambda}=a \frac{k^2}{2 \pi}.<br />

Then
<br /> v_g=\frac{dw}{dk}=2a \frac{k}{2 \pi}=2a \frac{1}{\lambda}.<br />

<br /> v_g=2 v_p.<br />
 

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