High-resolution Nuclear Magnetic Resonance |
Contents
Properties of Molecules in a Magnetic Field | 12 |
Theory of the Nuclear Magnetic Resonance Method | 22 |
a The Bloch Equations for Rotating Axes | 34 |
Copyright | |
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acetylacetone acid applied field aromatic axial benzene broadening calculated CCl4 chemical shifts coil components compounds corresponding cycles/sec cyclohexane diamagnetic dilution shifts dioxane doublet effect electron electronegativity energy enol equations equatorial equivalent nuclei ethylenic exchange fluorine fluorine atoms fluorine resonance frequency give rise Gutowsky H₂ Hamiltonian high field hydrogen bonds induced interaction ions isomers lines liquid low field lower field magnetic field magnetic resonance spectra matrix elements Mc/sec measured methyl molecular molecule multiplet NMR spectra nonequivalent nuclear magnetic nuclei observed obtained paramagnetic phenol phosphorus Phys position proton magnetic resonance proton resonance spectra proton signal pyridine quadrupole quartet ratio relative intensities resonance signal rf field ring rotation sample screening constant separation Shoolery shown in Fig solution solvent spin coupling constants spin-lattice relaxation spin-spin structure substituted susceptibility symmetry T₁ Table tautomer temperature theory tion trans transition triplet values vector wave functions