An electron (mass m) is contained in a cubical box of widths Lx = Ly = Lz = L. It emits and absorbs light by making transitions among the lowest five energy levels. (a) How many different frequencies of light could the electron emit or absorb if it makes a transition between a pair of the lowest five energy levels? What multiple of h/8mL2 gives the (b) lowest, (c) second lowest, (d) third lowest, (e) highest, (f) second highest, and (g) third highest frequency? (a) Number Units (b) Number Units (c) Number Units (d) Number Units (e) Number Units (f) Number Units (g) Number Units

An electron (mass m) is contained in a cubical box of widths Lx = Ly = Lz = L. It emits and absorbs light by making transitions among the lowest five energy levels. (a) How many different frequencies of light could the electron emit or absorb if it makes a transition between a pair of the lowest five energy levels? What multiple of h/8mL2 gives the (b) lowest, (c) second lowest, (d) third lowest, (e) highest, (f) second highest, and (g) third highest frequency? (a) Number Units (b) Number Units (c) Number Units (d) Number Units (e) Number Units (f) Number Units (g) Number Units

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Question

Chapter 39, Problem 029
An electron (mass m) is contained in a cubical box of widths Ly = Ly = Lz = L. It emits and absorbs light by making
transitions among the lowest five energy levels. (a) How many different frequencies of light could the electron emit or
absorb if it makes a transition between a pair of the lowest five energy levels? What multiple of h/8mL2 gives the (b)
lowest, (c) second lowest, (d) third lowest, (e) highest, (f) second highest, and (g) third highest frequency?
(a) Number
Units
(b) Number
Units
(c) Number
Units
(d) Number
Units
(e) Number
Units
(f) Number
Units
(g) Number
Units

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