| 31. | Second-order initial conditions are found that suppress secular behavior and excite a wave packet of which the energy agrees with fluid theory.
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| 32. | The strong, polarized electromagnetic field, holds or " traps " each electron wave packet in an intentionally selected orbit ( energy shell ).
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| 33. | A propagating wave packet; in general, the " envelope " of the wave packet moves at a different speed than the constituent waves.
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| 34. | A propagating wave packet; in general, the " envelope " of the wave packet moves at a different speed than the constituent waves.
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| 35. | Because the group velocity varies with " k ", the shape of the wave packet broadens with time, and the particle becomes less localized.
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| 36. | First, a wave packet, i . e . a quantum-mechanical particle, which is Simon A . 06 : 41, 12 October 2006 ( UTC)
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| 37. | Just multiply the cycle frequency by the number of seconds you're generating the wave packet for and boom, you have the number of cycles.
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| 38. | The envelope of the resulting " wave packet " is not really a proper wave� it's the result of the interference of several component waves.
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| 39. | In a wave packet, the wavelength of the particle is not precise, and the local wavelength deviates on either side of the main wavelength value.
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| 40. | In effect, the individual waves ( which travel with the phase velocity ) escape from the wave packet ( which travels with the group velocity ).
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