Nuclear magnetic resonance multiplicity

Monomer (Section 6 21) The simplest stable molecule from which a particular polymer may be prepared Monosaccharide (Section 25 1) A carbohydrate that cannot be hydrolyzed further to yield a simpler carbohydrate Monosubstituted alkene (Section 5 6) An alkene of the type RCH=CH2 in which there is only one carbon directly bonded to the carbons of the double bond Multiplicity (Section 13 7) The number of peaks into which a signal IS split in nuclear magnetic resonance spectroscopy Signals are described as singlets doublets triplets and so on according to the number of peaks into which they are split... 

Multiplicity (Section 13.7) The number of peaks into which a signal is split in nuclear magnetic resonance spectroscopy. Signals are described as singlets, doublets, triplets, and so on, according to the number of peaks into which they are split. 

Wilson ID. 2000. Multiple hyphenation of liquid chromatography with nuclear magnetic resonance spectroscopy, mass spectrometry and beyond. J Chromatogr A 892 315-327. 

He, Q., Richter, W., Vathyam, S. and Warren, W. S. Intermolecular multiple-quantum coherences and cross correlations in solution nuclear magnetic resonance, J.Chem.Phys., 98 (1993),6779-6800... 

Zimmerman, J.R. and Brittin, W.E. 1957. Nuclear magnetic resonance studies in multiple phase systems Lifetime of a water molecule in an absorbing phase on silica gel. J. Phys. Chem. 61, 1328-1333. 

Abbreviations and acronyms are short forms of single words (e.g., M for molar) or multiple words (e.g., NMR for nuclear magnetic resonance). In abbreviations, the individual letters are usually pronounced (e.g., A-C-S for American Chemical Society) in acronyms, the letters form a new word (e.g., CASSl for Chemical Abstracts Service Source Index). Compound labels are used to represent chemical compounds. (See also chapter 3 and The ACS Style Guide for more information on abbreviations and acronyms.)... 

R. Lefort, J. W. Wiench, M. Pruski and J.-P. Amoureux, Optimization of data acquisition and processing in Carr-Purcell-Meiboom-Gill multiple quantum magic angle spinning nuclear magnetic resonance. /. Chem. Phys., 2002,116, 2493-2501. 

When placed in a static magnetic field of flux density B0, a nucleus may undergo nuclear magnetic resonance (NMR) [1-5] if it possesses an angular momentum p. This angular momentum is referred to as nuclear spin. The component of p in the direction of B0 (Fig. 1.1), denoted as p0, can only take on values which are half-integral or integral multiples m of hj2 n ... 

Note The multiple meanings of nucleus and resonance can be a source of confusion, especially when these terms are closely associated, as in nuclear magnetic resonance and resonance of molecular nucleus. In the first of these expressions, nucleus is used in sense (1) under nucleus, and resonance in sense (2) under resonance. In the second expression, nucleus is used in sense (3) under nucleus and resonance in sense (1) under resonance. 

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