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ar motion, you have seen how the e wavelength changes as the momentum article changes (e.g. number of r PIB). Consider a particle confined urface of a sphere, which can be d by the rigid rotator model. What xpect for the shape of the wave describing a pole-to-pole motion? s form “circles of latitude ” on the sphere; the number of nod s with angular momentum s form “circles of latitude ” on the sphere; the number of nod s with angular momentum s form “circles of longitude ” on the sphere; the number of no s with angular momentum s form “circles of longitude ” on the sphere; the number of no s with angular momentum

For linear motion, you have seen how the deBroglie wavelength changes as the momentum

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For linear motion, you have seen how the deBroglie wavelength changes as the momentum of the particle changes (e.g. number of nodes for PIB). Consider a particle confined to the surface of a sphere, which can be described by the rigid rotator model. What - PowerPoint PPT Presentation

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Page 1: For linear motion, you have seen how the deBroglie wavelength changes as the momentum

For linear motion, you have seen how the deBroglie wavelength changes as the momentum of the particle changes (e.g. number of nodes for PIB). Consider a particle confined to the surface of a sphere, which can be described by the rigid rotator model. What do you expect for the shape of the wave function describing a pole-to-pole motion?

(A) nodes form “circles of latitude” on the sphere; the number of nodes increases with angular momentum

(B) nodes form “circles of latitude” on the sphere; the number of nodes decreases with angular momentum

(C) nodes form “circles of longitude” on the sphere; the number of nodes increases with angular momentum

(D) nodes form “circles of longitude” on the sphere; the number of nodes decreases with angular momentum

Page 2: For linear motion, you have seen how the deBroglie wavelength changes as the momentum

For linear motion, you have seen how the deBroglie wavelength changes as the momentum of the particle changes (e.g. number of nodes for PIB). Consider a particle confined to the surface of a sphere, which can be described by the rigid rotator model. What do you expect for the shape of the wave function describing a pole-to-pole motion?

(A) nodes form “circles of latitude” on the sphere; the number of nodes increases with angular momentum... nodal lines are always perpendicular to the direction of motion(B) nodes form “circles of latitude” on the sphere; the number of nodes decreases with angular momentum

(C) nodes form “circles of longitude” on the sphere; the number of nodes increases with angular momentum

(D) nodes form “circles of longitude” on the sphere; the number of nodes decreases with angular momentum


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