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Introduce your students to the latest advances in spectroscopy with the text that has set the unrivaled standard for more than 30 years: Pavia/Lampman/Kriz/Vyvyan's INTRODUCTION TO SPECTROSCOPY, 4e. Whether you use this comprehensive resource as the primary text in an upper-level spectroscopy course or as a companion book with an organic chemistry text, your students receive an unmatched systematic introduction to spectra and basic theoretical concepts in spectroscopic methods. This well-rounded introduction to spectroscopy features updated spectra; a modernized presentation of one-dimensional nuclear magnetic resonance (NMR) spectroscopy; the introduction of biological molecules in mass spectrometry; and inclusion of modern techniques alongside DEPT, COSY, and HECTOR.
- ADDITION OF MODERN PROCESSES: Additional techniques in Chapter 6 modernize this edition's presentation on one-dimensional NMR spectroscopy.
- EXPANDED COVERAGE WITHIN MASS SPECTROMETRY: The mass spectrometry material (Chapter 8) now provides a detailed look at biological molecules for the latest coverage on this important topic.
- NEWEST SPECTRA TECHNIQUES: You can easily provide students with the latest spectra techniques, found in Appendix 10, "Index of Spectra."
- EXTENSIVELY UPDATED SPECTROGRAPHS: Throughout the text, new spectrographs have been created with updated techniques to improve accuracy and presentation.
- PROVEN RESOURCE AND REFERENCE TEXT: This book has been recognized for more than 30 years as an excellent resource for the spectroscopy student and anyone seeking a solid introductory reference text on spectroscopy.
2. Infrared Spectroscopy.
3. Nuclear Magnetic Resonance Spectroscopy Part One: Basic Concepts.
4. Nuclear Magnetic Resonance Spectroscopy Part Two: Carbon-13 Spectra, Including Heteronuclear Coupling With Other Nuclei.
5. Nuclear Magnetic Resonance Spectroscopy Part Three: Spin-Spin Coupling.
6. Nuclear Magnetic Resonance Spectroscopy Part Four: Other Topics in One-Dimensional NMR.
7. Ultraviolet Spectroscopy.
8. Mass Spectrometry.
9. Combined Structure Problems.
10. Nuclear Magnetic Resonance Spectroscopy Part Five: Advanced NMR Techniques.
Answers to Selected Problems.
Appendix 1: Infrared Absorption Frequencies of Functional Groups.
Appendix 2: Some Representative Chemical Shift Values for Various Types of Protons.
Appendix 3: Typical Proton Coupling Constants.
Appendix 4: Calculation of Proton (1H) Chemical Shifts.
Appendix 5: Calculation of Carbon-13 Chemical Shifts.
Appendix 6: 13C Coupling Constants.
Appendix 7: Tables of Precise Masses and Isotopic Abundance Ratios for Molecular Ions Under Mass 100 Containing Carbon, Hydrogen, Nitrogen, and Oxygen.
Appendix 8: Common Fragment Ions Under Mass 105.
Appendix 9: Handy-Dandy Guide to Mass Spectral Fragmentation Patterns.
Appendix 10: Index of Spectra.