Introduction to spectroscopy /

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"Pavia/Lampman/Kriz/Vyvyan's Introduction to Spectroscopy, 4e, is a comprehensive resource that provides a systematic introduction to spectra and basic theoretical concepts in spectroscopic methods that creates a practical learning resource, whether you're an introductory student or s...

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Bibliographic Details
Other Authors: Pavia, Donald L.
Format: Printed Book
Language:English
Published: Belmont, CA : Brooks/Cole, Cengage Learning, c2015
Edition:5th ed.
Subjects:
Organic compounds > Analysis
Spectrum analysis
Table of Contents:
  • Ch. 1. Molecular formulas and what can be learned from them
  • Ch. 2. Infrared spectroscopy
  • Ch. 3. Nuclear magnetic resonance spectroscopy, part one : basic concepts
  • Ch. 4. Nuclear magnetic resonance spectroscopy, part two : carbon-13 spectra, including heteronuclear coupling with other nuclei
  • Ch. 5. Nuclear magnetic resonance spectroscopy, part three : spin-spin coupling
  • Ch. 6. Nuclear magnetic resonance spectroscopy, part four : other topics in one-dimensional NMR
  • Ch. 7. Ultraviolet spectroscopy
  • Ch. 8. Mass spectrometry
  • Ch. 9. Combined structure problems
  • Ch. 10. Nuclear magnetic resonance spectroscopy, part five : advanced NMR techniques
  • App. 1. Infrared absorption frequencies of functional groups
  • App. 2. Approximate [superscript 1]H chemical shift ranges (ppm) for selected types of protons
  • App. 3. Some representative [superscript 1]H chemical shift values for various types of protons
  • App. 4. [superscript 1]H chemical shifts of selected heterocyclic and polycyclic aromatic compounds
  • App. 5. Typical proton coupling constants
  • App. 6. Calculation of proton ([superscript 1]H) chemical shifts
  • App. 7. Approximate [superscript 13]C chemical-shift values (ppm) for selected types of carbon
  • App. 8. Calculation of [superscript 13]C chemical shifts
  • App. 9. [superscript 13]C coupling constants
  • App. 10. [superscript 1]H and [superscript 13]C chemical shifts for common NMR solvents
  • App. 11. Tables of precise mass and isotopic abundance ratios for molecular ions under mass 100 containing carbon, hydrogen, nitrogen, and oxygen
  • App. 12. Common fragment ions under mass 105
  • App. 13. A handy-dandy guide to mass spectral fragmentation patterns
  • App. 14. Index of spectra.

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