AP Free Response Question
2009 B6 Form B
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The electron energy levels below are for an electron confined to a certain very small one-dimensional region of space. The energy E
n
of the levels, where n = 1, 2, 3, . . ., is given by E
n
= n
2
E
1
. Express all algebraic answers in terms of E
1
and fundamental constants.
(a) On the diagram above, label the three excited energy levels with the values for their energies in terms of E
1
, the energy of the ground state.
(b) Calculate the smallest frequency of light that can be absorbed by an electron in this system when it is in the ground state, n = 1.
(c) If an electron is raised into the second excited state, draw on the diagram all the possible transitions that the electron can make in returning to the ground state.
(d) Calculate the wavelength of the highest energy photon that can be emitted in the transitions in part (c).
Topic Formulas
Description
Published Formula
critical angle
index of refraction
mass-energy equivalence
period and frequency
photoelectric equation
photon energy
photon momentum
Snell's Law
wave speed
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