JCE 2001 (78) 121 [Jan] Teaching <sup>1</sup>H NMR Spectrometry Using Computer Modeling


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Home > JCE Print > Journal of Chemical Education > Issues > 2001 > January >

Information • Textbooks • Media • Resources

Teaching with Technology

Teaching ¹H NMR Spectrometry Using Computer Modeling

Yoichi Habata and Sadatoshi Akabori
Department of Chemistry, Faculty of Science, Toho University, Funabashi, Chiba 274-8510, Japan

January 2001
Vol. 78 No. 1
p. 121

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Abstract

Use of computer modeling for teaching ¹H NMR spectroscopy is described. The direction of the induced magnetic field is clarified by displaying the electrostatic potential on the molecule, when the magnetic anisotropy effect is taught. It is possible to show a clear reason why the induced magnetic field occurs in the H-C-C-H direction in acetylene. By viewing an electrostatic potential map, which displays electrostatic potential on the electron density, it is possible for students to visually understand the shielding effect by the electronegativity. This map gives understanding of the difference in chemical shift between CHX₃, CH₂X₂, and CH₃X, depending on the number of halogen atoms. Although long-range coupling between the protons arranged in a W shape in the bicyclic systems has been introduced in many textbooks of ¹H NMR spectroscopy, there is no clear description of why they happen. A display of the highest occupied molecular orbital aids understanding of why long-range coupling happens in bicyclic systems.

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Color figures are used in the full-text PDF of this article in place of some of the grayscale figures used in the printed article.

More Information
Citation	Habata, Yoichi; Akabori, Sadatoshi. J. Chem. Educ. 2001 78 121.
Keywords	Computer Assisted Instruction; Molecular Properties / Structure; NMR Spectrometry; Teaching / Learning Aids
History	Created: Last Updated:	November 30, 2000 August 31, 2005


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