(a) between 4.95 nm and 5.05 nm (b) between 1.95 nm and 2.05 nm (c) between 9.90 nm and 10.00 nm (d) in the right half of the box (e) in the central third of the box 2. The energy levels of a particle of mass, m, in a box length L = 10 Å are given by: n²h? E = 8mL2 · Suppose that the particle is an electron and that the box represents a long conjugated molecule. What are energy separations in kJ mol¬', eV, and cm-1 between levels: (a) n = 2 and n = 1 (b) n = 6 and n = 5 3. Calculate the expectation value of p² for a particle in a one dimensional square-well potential. 4. Calculate the expectation value of x² for a particle in a one dimensional square-well potential.
(a) between 4.95 nm and 5.05 nm (b) between 1.95 nm and 2.05 nm (c) between 9.90 nm and 10.00 nm (d) in the right half of the box (e) in the central third of the box 2. The energy levels of a particle of mass, m, in a box length L = 10 Å are given by: n²h? E = 8mL2 · Suppose that the particle is an electron and that the box represents a long conjugated molecule. What are energy separations in kJ mol¬', eV, and cm-1 between levels: (a) n = 2 and n = 1 (b) n = 6 and n = 5 3. Calculate the expectation value of p² for a particle in a one dimensional square-well potential. 4. Calculate the expectation value of x² for a particle in a one dimensional square-well potential.
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter5: Electron Configurations And The Periodic Table
Section: Chapter Questions
Problem 141QRT
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Transcribed Image Text:(a) between 4.95 nm and 5.05 nm
(b) between 1.95 nm and 2.05 nm
(c) between 9.90 nm and 10.00 nm
(d) in the right half of the box
(e) in the central third of the box
2. The energy levels of a particle of mass, m, in a box length L = 10 Å are given by:
n²h?
E =
8mL2
· Suppose that the particle is an electron and that the box represents a long conjugated molecule. What are
energy separations in kJ mol¬', eV, and cm-1 between levels:
(a) n = 2 and n = 1
(b) n = 6 and n = 5
3. Calculate the expectation value of p² for a particle in a one dimensional square-well potential.
4. Calculate the expectation value of x² for a particle in a one dimensional square-well potential.
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