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Moser

It is sometimes very usefiil to look at a trajectory such as the synnnetric or antisynnnetric stretch of figure Al.2.5 and figure A1.2.6 not in the physical spatial coordinates (r. . r y), but in the phase space of Hamiltonian mechanics [16, 29], which in addition to the coordinates (r. . r ) also has as additional coordinates the set of conjugate momenta. . pj. ). In phase space, a one-diniensional trajectory such as the aiitisymmetric stretch again appears as a one-diniensional curve, but now the curve closes on itself Such a trajectory is referred to in nonlinear dynamics as a periodic orbit [29]. One says that the aihiamionic nonnal modes of Moser and Weinstein are stable periodic orbits. [Pg.61]

Moser J 1976 Periodic orbits near an equilibrium and a theorem by Alan Weinstein Comm. Pure Appl. Math. 29 727... [Pg.82]

Figure A2.5.22 shows [6] the experimental heat eapaeity of p-brass (CiiZn) measured by Moser in 1934. Note that the experimental eiirve is sharper and goes imieh higher than any of the theoretieal eurves in figure A2.5.21 however, at that time it was still believed to have a finite limit. Figure A2.5.22 shows [6] the experimental heat eapaeity of p-brass (CiiZn) measured by Moser in 1934. Note that the experimental eiirve is sharper and goes imieh higher than any of the theoretieal eurves in figure A2.5.21 however, at that time it was still believed to have a finite limit.
Figure A2.5.22. The experimental heat eapaeity of a p-brass (CiiZn) alloy eontaining 48.9 atomie pereent Zn as measured by Moser (1934). The dashed line is ealeulated from the speeifie heats of Cu and Zn assuming an ideal mixture. Reprodueed from [6] Nix F C and Shoekley W 1938 Rev. Mod. Phy.s. 10 4, figure 4. Copyright (1938) by the Arneriean Physieal Soeiety. Figure A2.5.22. The experimental heat eapaeity of a p-brass (CiiZn) alloy eontaining 48.9 atomie pereent Zn as measured by Moser (1934). The dashed line is ealeulated from the speeifie heats of Cu and Zn assuming an ideal mixture. Reprodueed from [6] Nix F C and Shoekley W 1938 Rev. Mod. Phy.s. 10 4, figure 4. Copyright (1938) by the Arneriean Physieal Soeiety.
Walker G C, Maiti S, Cowen B R, Moser C C, Dutton P L and Hochstrasser R M 1994 Time resolution of electronic transitions of photosynthetic reaction centers in the infrared J. Phys. Chem. [Pg.1998]

Haran G, Wynne K, Moser 0 0, Dutton P L and Hochstrasser R M 1996 Level mixing and energy redistribution in bacterial photosynthetic reaction centers J. Rhys. Chem. 100 5562-9... [Pg.1999]

Moser, C.C., Dutton, P.L. Biological electron transfer measurement, mechanism, engineering requirements. In Quantum mechanical simulation methods for studying biological systems, D. Bicout and M. Field, eds. Springer, Berlin (1996) 201-214. [Pg.33]

F. H. Moser and A. L. Thomas, Phthahganine Compounds Reinhold Publishing Co., New York, 1963. [Pg.507]

S. K. Jain, G. A. Moser, and L. K. Rath, "Coal-to-Ammonia Via the KeUogg/KRW Process," AIChE Spring National Meeting New Orleans, La., Apr. 6—10, 1986, American Institute of Chemical Engineers, New York. [Pg.360]

R. Howerton, G. Moser, and R. Strait, "Update on Kellogg s Ammonia Optimizer at Agrico," Kellogg A.mmonia Club Meeting San Francisco, Calif., Nov. 1989. [Pg.361]

WESSELY - MOSER Rearrangement Acid catalyzed rearrangement d dihidroxyxanthone... [Pg.411]


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