Ewing


C. Pierce and B. Ewing, J. Phys. Chem., 68, 2562 (1964).  [c.678]

C. Pierce and B. Ewing, J. Phys. Chem., 68, 2562 (1964).  [c.679]

D.J. Dai and G. E. Ewing, J. Chem. Phys., 98, 5050 (1993).  [c.679]

Ewing G E 1980 Vibrational predissociation in hydrogen-bonded complexes J. Cham. Phys. 72 2096-107  [c.1042]

The anisotropy of the product rotational state distribution, or the polarization of the rotational angular momentum, is most conveniently parametrized tluough multipole moments of the distribution [45]. Odd multipoles, such as the dipole, describe the orientation of the angidar momentum /, i.e. which way the tips of the / vectors preferentially point. Even multipoles, such as the quadnipole, describe the aligmnent of /, i.e. the spatial distribution of the / vectors, regarded as a collection of double-headed arrows. Orr-Ewing and Zare [47] have discussed in detail the measurement of orientation and aligmnent in products of chemical reactions and what can be learned about the reaction dynamics from these measurements.  [c.2077]

Grr-Ewing A J and Zare R N 1995 Orientation and alignment of the products of bimolecular reactions The Chemicai Dynamics and Kinetics of Smaii Radicais vol 2, ed K Liu and A Wagner (Singapore World Scientific) pp 936-1063  [c.2087]

Shafer N E, Orr-Ewing A J, Simpson W R, Xu H and Zare R N 1993 State-to-state differential cross sections from photoinitiated bulk reactions Chem. Phys. Lett. 212 155-162  [c.2088]

Simpson W R, Orr-Ewing A J and Zare R N 1993 State-to-state differential cross sections for the reaction Cl (2P3/2) + CH4( /3 = 1, j = 1) HCI( / =, J ) + CH3 Chem. Phys. Lett. 212 163-71  [c.2088]

Chang H-C and Ewing G E 1990 Infrared fluoresoenoe from a monolayer of CO on NaCI(IOO) Phys. Rev. Lett. 65 2125-8  [c.3050]

Simultaneous Cr O " and MnOj" detemiination (Ewing, 1985) is a multivariate spectrophotometric analysis that requires detemiination of a matrix of four calibration constants, one for each unknown at each of two wavelengths.  [c.83]

Ewing, G. W., 1985. Instrumental Methods of Chemical Analysis. McGraw-Hill, New York.  [c.335]

C. Pierce, J. Phys. Chem. 64, 1184 (1960) C. Pierce and B. Ewing, J. Amer. Chem. Soc. 84, 4070 (1962) K. S. W. Sing, in Colloid Science (ed. D. H. Everett), Vol. 1, p. 48, Specialist Periodical Reports, Chemical Society, London (1973).  [c.109]

Laitinen, H. A. Ewing, G. (eds). A History of Analytical Chemistry. The Division of Analytical Chemistry of the American Chemical Society Washington, D.C., 1972. McLafferty, E. W. Analytical Chemistry Historic and Modern, Acc. Chem. Res. 1990, 23, 63-64.  [c.10]

Laitinen, H. A. Ewing, G. W., eds. A History of Analytical Chemistry. The Division of Analytical Chemistry of the American Chemical Society Washington, DC, 1977, pp. 10-24.  [c.271]

Laitenen, H. A. Ewing, G. W., eds. A History of Analytical Chemistry, The Division of Analytical Chemistry of the American Chemical Society Washington, D.C., 1977, pp. 103-243.  [c.458]

Laitinen, H. A. Ewing, G. W., eds. A Elistory of Analytical Chemistry, The Division of Analytical Chemistry of the American Chemical Society Washington, D.C., 1977, pp. 97-102.  [c.664]

Figure 9.38 Cavity ring-down absorption spectrum of the 0-0 band of the a Ag-X Z system of O2, where k is the reciprocal of the ring-down time. (Reproduced, with permission, from Newman, S. M., Lane, I. C., Orr-Ewing, A. J., Newnham, D. A. and Ballard, J., J. Chem. Phys., 110, 10749, 1999) Figure 9.38 Cavity ring-down absorption spectrum of the 0-0 band of the a Ag-X Z system of O2, where k is the reciprocal of the ring-down time. (Reproduced, with permission, from Newman, S. M., Lane, I. C., Orr-Ewing, A. J., Newnham, D. A. and Ballard, J., J. Chem. Phys., 110, 10749, 1999)
EP 90-312689 (Nov. 21, 1990), J. A. Sommers, R. Ginther, and K. Ewing.  [c.155]

J. J. Ewing, Pkys. Today, 32 (May 1978).  [c.20]

The same principle has been appHed to other mammals, particularly ewes and goats, as well as dairy cows (Table 22 Table 22. Use of Milk-Producing Animals for Biotechnology  [c.371]

G. W. Ewing, Instrumental Methods of Chemical Analysis, 5th ed., McGraw-HiU, New York, 1985.  [c.326]

P. C. Bums, M. L. Miller, and R. C. Ewing, The Canadian Mineralogist 845—880 (1996).  [c.338]

M. L. Miller, R. J. Finch, P. C. Bums, and R. C. Ewing, Mater. R j". Soc. Symp. Proc. (1996).  [c.338]

J. P. Stone, C. T. Ewing, and R. R. Miller,/ Chem. Eng. Data 7(1), 519 (1962).  [c.119]

D. T. Ewing and H. W. Schmidt, Trans. Electrochem. Soc. 47, 117 (1925).  [c.303]

Anex D S and Ewing G E 1986 Transfer and storage of vibrational energy in liquids oollisional up-pumping of oarbon monoxide in liquid argon J. Phys. Chem. 90 1604-10  [c.3050]

A spcctruphoLornetric problem in simultaneous analysis (Ewing, 198.2) is taken from the original research of Weissler (194.2), who reaeted hydrogen peroxide with Mo, Ti, and V ions in the same solution to produce corn pounds that absorb light strongly in overlapping peaks with absorbances at. 320. 410. and 460 nrn, respectively as sliown in (Fig, 2-3),  [c.52]

C. Pierce and B. Ewing, 7. Phys. Chem. 68, 2562 (1964) C. Pierce, 7. Phys. Chem., 73, 813 (1969) B. W. Davis and R. G. Varsanik, 7. Colloid Interface Sci. 37, 870 (1971).  [c.107]

For a general history of titrimetry, see the following sources. Kolthoff, I. M. Analytical Chemistry in the USA in the First Quarter of This Century, Anal. Chem. 1994, 66, 24IA-249A. Laitinen, H. A. Ewing, G. W., eds. A History of Analytical Chemistry. The Division of Analytical Chemistry of the American Chemical Society Washington, DC, 1977, pp. 52-93.  [c.366]

Vassos, B. H. Ewing, G. W. Electroanalytical Chemistry. Wiley-Interscience New York, 1983.  [c.540]

Laltlnen, H. A. Ewing, G. (eds). A History of Analytical Chemistry The Division of Analytical Chemistry of theAmerlcan Chemical Society Washington, D.C.,  [c.811]


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Mechanics of composite materials (1999) -- [ c.329 ]

Machanics of composite materials (1998) -- [ c.329 ]