High Resolution Nuclear Magnetic Resonance Spectroscopy, Volume 1 |
Contents
GENERAL THEORY OF NUCLEAR MAGNETIC RESONANCE | 10 |
68 | 27 |
THE ORIGIN OF CHEMICAL SHIFTS AND SPINSPIN COUPLING | 59 |
Copyright | |
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¹H resonance spectrum AA'BB absorption bands acid Amer analysis applied benzene calculated Chem chemical shift chemical shift difference coil compounds coupling constants cycles sec-1 decoupling diagonal diamagnetic doublet E₁ effect eigenfunctions eigenvalues electron energy levels exchange fluorine given gives H₁ H₂ Hamiltonian hence hydrogen atoms hydrogen bonding hydrogen nuclei hydrogen resonance interaction irradiation line width magnetic field magnetic moment magnetic nuclei magnetically equivalent matrix elements Mc sec-1 measured method methyl molecular molecule multiplet non-equivalent nuclear magnetic resonance nuclei observed obtained orbital paramagnetic parameters Phys proton radiofrequency radiofrequency field relative intensities relative signs relaxation resonance frequency rotation sample sec-¹ Section secular equation shielding constant signal solution solvent spectra spectrometer spin functions spin system spin-spin substituted symmetry T₁ T₂ Table temperature transition energies v₁ values wavefunctions zero