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Simpson, William

Irene Durbak David W. Green Terry L. Highley Janies L. Howard David B. McKeever Regis B. Miller Roger C. Pettersen Roger M. Rowell William T. Simpson Kenneth E. Skog Robert H. White Jerrold E. Win dy John I. Zerbe USDA Forest Service... [Pg.337]

Casey DA, Davis MH Obsessive-compulsive disorder responsive to electroconvulsive therapy in an elderly woman. South Med J 87 862-864, 1994 Casey ML, McDonald PC, Simpson ER Endocrinological changes in pregnancy, in Williams Textbook of Endocrinology, 7th Edition. Edited by Wilson JD, Doster DW. Philadelphia, PA, WB Saunders, 1985, pp 442-447 Casper JL Bigraphic d une idee fixe. Traduction de Lalaune G. Archiv de Neurologic 1 270-287, 1902... [Pg.609]

The era of modern general anaesthesia dawned in 1846 with the first administration of diethyl ether by William Morton to a patient in Massachusetts General Hospital. One year later it was followed by Simpson s demonstration of the effects of chloroform in Edinburgh. Since that time the dominance of the inhalation route of administration as a means of providing general anaesthesia combined with safe control of the airway has not been seriously challenged. [Pg.51]

At a Reynolds number of zero this expression reduces to Equation 4. Hottel, Williams, and Simpson (23) suggest that a term accounting for chemical reaction rate in relation to momentum transfer should be included in Equation 12. [Pg.122]

Hottel, Williams, and Simpson (HE) and Hall and Dicderichsen (HE) have been... [Pg.138]

Kobayasi (44) and Nishiwaki (62) noted the existence of both a preheat period, during which no change in diameter of the droplet was noted, and a vaporization period. Hottel, Williams, and Simpson (38) reported that, whereas the preheat time decreases with the furnace temperature, the vaporization rate remains unchanged. El Wakil and coworkers (16) noted a high degree of circulation in the drops during the preheat period and found that the droplets lifetime increased with the number of carbon atoms and decreased with air temperature. [Pg.246]

Simpson, Greg D. Laxton, Garry D. Miller, R. F. William, R. A Focus on Chlorine Dioxide for Stressed Cooling-Water Systems. Industrial Water Treatment, USA, September/October 1994. [Pg.455]

Hantgan, R. R., Simpson-Haidaris, P. J., Francis, C. W., and Marder, V. J. (2000). Fibrinogen structure and physiology. In Hemostasis and Thrombosis Basic Principles and Clinical Practice (R. W. Colman, J. Hirsh, V. J. Marder, A. W. Clowes, andj. N. George, Eds.), pp. 203-232. Lippincott, Williams Wilkins, Philadelphia. [Pg.290]

Figure 3.5. (A) JH NMR spectrum of the Brooksville fulvic acid (BFA) dissolved in d6-DMSO and (B) HR-MAS NMR spectrum of the BFA-clay complex swollen in g 6-DMSO. Inset shows that lower abundance aromatic species are present in the spectrum in part B. Reprinted from Simpson, A. I, Simpson, M. I, Kingery, W. L., Lefebvre, B. A., Moser, A., Williams, A. I, Kvasha, M., and Kelleher, B. R (2006). The application of 1H high-resolution magic-angle spinning NMR for the study of clay-organic associations in natural and synthetic complexes. Langmuir 22,4498 1503, with permission from the American Chemical Society. Figure 3.5. (A) JH NMR spectrum of the Brooksville fulvic acid (BFA) dissolved in d6-DMSO and (B) HR-MAS NMR spectrum of the BFA-clay complex swollen in g 6-DMSO. Inset shows that lower abundance aromatic species are present in the spectrum in part B. Reprinted from Simpson, A. I, Simpson, M. I, Kingery, W. L., Lefebvre, B. A., Moser, A., Williams, A. I, Kvasha, M., and Kelleher, B. R (2006). The application of 1H high-resolution magic-angle spinning NMR for the study of clay-organic associations in natural and synthetic complexes. Langmuir 22,4498 1503, with permission from the American Chemical Society.
Simpson, A. J., Lefebvre, B., Moser, A., Williams, A., Larin, N., Kvasha, M., Kingery, W. L., and Kelleher, B. (2004a). Identifying residues in natural organic matter through spectral prediction and pattern matching of 2D NMR datasets. Magn. Reson. Chem. 42,14-22. [Pg.646]

Andrew JJ, Harriss AP, McDermott DC, Williams HT, Madden PA, Simpson CJSM. Chem Phys 139 369, 1989. [Pg.679]

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See also in sourсe #XX -- [ Pg.63 , Pg.79 ]



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