Introduction to spectroscopy / Donald L. Pavia ... [et al.].
Publication details: Belmont, CA : Brooks/Cole, Cengage Learning, c2009.Edition: 4th editionDescription: xv, 727 p. : ill. ; 26 cmISBN:- 9780495114789 (pbk.)
- 0495114782 (pbk.)
- 22 543 INT
Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
---|---|---|---|---|---|---|
Book Closed Access | Engineering Library | 543 INT. 1 (Browse shelf(Opens below)) | 1 | Available | BUML23080177 |
CONTENT
CHAPTER 1 MOLECULAR FORMULAS AND WHAT CAN BE LEARNED FROM THEM
1.1 Elemental analysis and calculations
1.2 Determination of molecular mass
1.3 Molecular formulas
1.4 index of hydrogen deficiency
etc.
CHAPTER 2 INFRARED SPECTROSCOPY
2.1 The infrared absorption process
2.2 Uses of the infrared spectrum
2.3 The modes of stretching and bending
2.4 Bond properties and absorption trends
etc.
CHAPTER 3 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
PART ONE: BASIC CONCEPTS
3.1 Nuclear spin states
3.2 Nuclear magnetic moments
3.3 Absorption of energy
3.4 The mechanism of absorption
etc.
CHAPTER 4 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
PART TWO: CARBON-13 SPECTRA, INCLUDING HETERONUCLEAR COUPLING WITH OTHER NUCLEI
4.1 The carbon-13 nuclear
4.2 Carbon-13 chemical shifts
4.3 Proton-coupled C spectra spin-spin splitting of carbon-13 signals
4.4 Proto-decoupled C spectra
etc.
CHAPTER 5 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
PART THREE: SPIN-SPIN COUPLING
5.1 Coupling constants: symbols
5.2 Coupling constants: the mechanism of coupling
5.3 magnetic equivalence
5.4 Spectra of diastereotopic systems
etc.
CHAPTER 6 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
PART FOUR: OTHER TOPICS IN ONE DIMENSIONAL NMR
6.1 Protons on oxygen: alcohols
6.2 Exchange in water and D2O
6.3 Other types of exchange: tautomerism
6.4 Protons on nitrogen: amines
etc.
CHAPTER 7 ULTRAVIOLET SPECTROSCOPY
7.1 The nature of electronic excitations
7.2 The origin of UV band structure
7.3 Principles of absorption spectroscopy
7.4 Instrumentation
etc.
CHAPTER 8 MASS SPECTROMETRY
8.1 The mass spectrometer: overview
8.2 Sample introduction
8.3 Ionization methods
8.4 Mass analysis
etc.
CHAPTER 9 COMBINED STRUCTURE PROBLEMS
Example 1
Example 2
Example 3
Example 4
etc.
CHAPTER 10 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
PART FIVE: ADVANCED NMR TECHNIQUES
10.1 Pulse sequences
10.2 Pulse widths, spins, and magnetization vectors
10.3 Pulsed field gradients
10.4 The DEPT experiment
10.5 Determining the number of attached hydrogens
etc.
Index : p. I-1 - I-8
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