Phenomena fundamental

Feynman s approach is more powerful because it gives an explicit construction for this Hamiltonian. Peynman s motivation for constructing his model was his belief that certain ciuantum phenomena fundamentally cannot be simulated by purely classical computers ([feyii82],[feyii87]). 

Diels JC, Rudolph W (1996) Ultrashort laser pulse phenomena fundamentals, techniques, and applications on a femtosecond time scale. Academic, San Diego CA, pp 365-399... 

Transport Phenomena Fundamentals, Second Edition, Joel Plawsky... 

Plawsky, J. L. (2001), Transport Phenomena Fundamentals, Marcel Dekker, New York, NY. 

The current burst model is potentially powerful in providing explanations for many mechanistic and morphological aspects involved in the formation of PS. However, as recognized by Foil et al. themselves, it would be extremely difficult for such a unified model to be expressed in mathematical form because it has to include all of the conditional parameters and account for all of the observed phenomena. Fundamentally, all electrochemical behavior is in nature the statistical averages of the numerous stochastic events at a microscopic scale and could in theory be described by the oscillation of the reactions on some microscopic reaction units which are temporally and spatially distributed. Ideally, a single surface atom would be the smallest dimension of such a unit and the integration of the contribution of all of the atoms in time and space would then determine a specific phenomenon. In reality, it is not possible because one does not know with any certainty the reactivity functions of each individual atoms. The difficulty for the current burst model would be the establishment of the reactivity functions of the individual reaction units. Also, some of the assumptions used in this model are questionable. For example, there is no physical and chemical foundation for the assumption that the oxide covering the reaction unit is... 

Transport Phenomena Fundamentals, Joel L. Plawsky Petroleum Refining Processes, James G. Speight and Baki Ozum... 

R. Kainuma, H. Nakano, K. Oikawa, K. Ishida, T. Nishizawa High Temperature Shape Memory Alloys of Ni-Al Base Systems. In C.T. Liu, M. Wuttig, K. Otsuka et al. Shape-Memory Materials and Phenomena - Fundamental Aspects and Applications. MRS, Pittsburgh (1992) 403-408. 

Newly developing fields of science are organized according to universally recognized criteria using well-defined terms to describe the phenomena, fundamentals, correlations, equipment, procedures, and processes. This is not the case for those technologies that have been known for centuries and have been developed empirically and independently for different applications (Chapter 2). In such cases the same process, procedure, activity or piece of equipment may have different names in different industries or the same term may have different meanings in different fields of application. 

Polymer science has expanded over the past few decades and shifted its centre of interest to encompass a whole new range of materials and phenomena. Fundamental investigations on the molecular structure of polymeric liquids, gels, various phase transitions, alloys and blends, molecular motion, flow properties, and many other interesting topics, now constitute a signiflcant proportion of the activity of physical and chemical laboratories around the world. 

Random Phenomena, Fundamentals of Probability and Statistics for Engineers, Babutnde A. Ogunnaike, CRC Press, 2010... 

Ogunnaike BA (2010) Random phenomena fundamentals of probability and statistics for caigi-neers. CRC Press, Boca Rahm... 

Catalysis of Organic Reactions, edited by Michael E. Ford The Chemical Process Industries Infrastructure Function and Economics, James R. Couper, O. Thomas Beasley, and W. Roy Penney Transport Phenomena Fundamentals, Joel L. Plawsky... 

Panat PV (2005) Classical mechanics. Alpha Science International Ltd, Harrow Plawsky JL (2001) Transport phenomena fundamentals. Marcel Dekker Inc, New York Pope S (2000) Turbulent flows. Cambridge University Press, Cambridge Prausnitz JM, Lichtenthaler RN, de Azevedo EG (1999) Molecular thermodynamics of fluid-phase equilibria, 3rd edn. Pretence HaU PTR, New Jersey... 

---