Basic Principles of Spectroscopy |
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Page 12
... quantum number I has the values 7 = 0 , 1 , 2 , . . For a given value of I there are 21 + 1 values of m , the magnetic quantum number . The relations between these three quantum numbers are • l≤n - 1 and -l≤m < l The value of the ...
... quantum number I has the values 7 = 0 , 1 , 2 , . . For a given value of I there are 21 + 1 values of m , the magnetic quantum number . The relations between these three quantum numbers are • l≤n - 1 and -l≤m < l The value of the ...
Page 29
... quantum n , whereas in many - electron atoms the energy levels are dependent on both n and the azimuthal quantum number 1. Explain this difference . 1-4 . Calculate the Doppler shift in frequency and wavelength for an assembly of ...
... quantum n , whereas in many - electron atoms the energy levels are dependent on both n and the azimuthal quantum number 1. Explain this difference . 1-4 . Calculate the Doppler shift in frequency and wavelength for an assembly of ...
Page 202
... quantum number v . As we shall see later that although certain transitions are preferred , Av may be positive , negative , or zero . In diatomic spectra we use the terminology band to describe a definite pair of quantum numbers v ' and ...
... quantum number v . As we shall see later that although certain transitions are preferred , Av may be positive , negative , or zero . In diatomic spectra we use the terminology band to describe a definite pair of quantum numbers v ' and ...
Contents
PREFACE | 1 |
NUCLEAR QUADRUPOLE RESONANCE SPECTROSCOPY | 29 |
NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY | 52 |
Copyright | |
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absorption angular momentum applied atomic orbitals axis bands benzene bond Chap Chem chemical shift Chemistry components compounds constant coordinates diagram diatomic molecule dipole discussed Educ effect electric field electronic transition emission energy levels equation example excited fluorescence frequency given hence intensity interaction ionization potential irreducible representation laser linear lines magnetic field magnetic moment Magnetic Resonance matrices McGraw-Hill Book Company Microwave Spectroscopy molecular orbital Mössbauer Mössbauer Effect normal modes Nuclear Magnetic nuclear quadrupole nucleus obtained optically active oscillator permission phosphorescence photoelectron Phys plane point group polarized potential energy protons quantum mechanics quantum number R₂ radiation Raman selection rules shown in Fig shows solution spectra spectrometer spectrum spin-spin splitting structure studies symmetry elements symmetry operations Table technique tion triplet unpaired values vector wave function wavelength Wiley & Sons York Zeeman zero ΔΕ