## A contribution to the study of nuclear magnetism: three studies |

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### Contents

strong relaxation | 53 |

B James T Arnold The Magnetic Resonances of Protons in Ethyl | 89 |

Measurements | 120 |

6 other sections not shown

### Common terms and phrases

amplitude analogy angular frequency assumed assumption Bloch Boltzmann equation calculated CERN 55 chemical shift components contribution corresponding cycle per second degeneracy dependence derived dipole distribution matrix eigenvalues electrons energy levels equal equivalent nuclei ethyl alcohol experimental expression external field fact Felix Bloch finite further gauss given Hahn and Maxwell Hamiltonian hence hydroxyl group hyperfine structure inhomogeneity large compared Larmor frequency line intensities line width liquids magnetic field magnetic quantum magnetic resonance spectra magnitude matrix elements measured modulation molecular surroundings molecular system molecules nuclear magnetic nuclear magnetic resonance nuclear spins observed obtains oscillator perturbation Phys Phys.Rev proton magnetic resonance quantities quantum numbers ratio receiver coil relative relaxation mechanism relaxation processes represents resolution resonance frequency resonance lines rotating sample shown signal spectrum of ethyl spin coupling spin energy structure total spin traces transition frequencies transmitter transverse relaxation values voltage weak radio-frequency field zero