The figure above shows the absorption spectrum of the molecule HBr. Following the basic procedures of Section 9.6, find: (a) the energy of the “missing” transition; (b) the effective force constant k; (c) the rotational spacing 2B. Estimate the value of the rotational spacing expected for HBr and compare with the value deduced from the spectrum. Why are there only single lines and not double lines as in the case of HCl?
The figure above shows the absorption spectrum of the molecule HBr. Following the basic procedures of Section 9.6, find: (a) the energy of the “missing” transition; (b) the effective force constant k; (c) the rotational spacing 2B. Estimate the value of the rotational spacing expected for HBr and compare with the value deduced from the spectrum. Why are there only single lines and not double lines as in the case of HCl?
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter7: Work, Energy, And Energy Resources
Section: Chapter Questions
Problem 40PE: (a) What is the available energy content, in joules, of a battery that operates a 2.00-W electric...
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The figure above shows the absorption spectrum of the molecule HBr. Following the basic procedures of Section 9.6, find:
(a) the energy of the “missing” transition;
(b) the effective force constant k;
(c) the rotational spacing 2B. Estimate the value of the rotational spacing expected for HBr and compare with the value deduced from the spectrum. Why are there only single lines and not double lines as in the case of HCl?
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