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Investigative tools limitations

Moreover, using the PEI as an investigative tool for this initial study, differences between the primary and the secondary alcohols chosen are also found in the immediacy and ultimate levels of forming volatile forms of phosphorus species. Variation in PEI of four marketed engine oils in North America has shown marked differences of 3700 %. Even comparing the two alcohols used in this study, the differences in PEI were about 400 %. To be sure, at this point, the latter observations are limited to the two alcohols used to make the ZDDPs for this study, but the technique is obviously readily applicable to all other variations of ZDDPs. [Pg.252]

Surfaces are investigated with surface-sensitive teclmiques in order to elucidate fiindamental infonnation. The approach most often used is to employ a variety of techniques to investigate a particular materials system. As each teclmique provides only a limited amount of infonnation, results from many teclmiques must be correlated in order to obtain a comprehensive understanding of surface properties. In section A 1.7.5. methods for the experimental analysis of surfaces in vacuum are outlined. Note that the interactions of various kinds of particles with surfaces are a critical component of these teclmiques. In addition, one of the more mteresting aspects of surface science is to use the tools available, such as electron, ion or laser beams, or even the tip of a scaiming probe instrument, to modify a surface at the atomic scale. The physics of the interactions of particles with surfaces and the kinds of modifications that can be made to surfaces are an integral part of this section. [Pg.284]

Software tools for computational chemistry are often based on empirical information. To use these tools, you need to understand how the technique is implemented and the nature of the database used to parameterize the method. You use this knowledge to determine the most appropriate tools for specific investigations and to define the limits of confidence in results. [Pg.7]

In reaction engineering, laboratory catal54ic reactors are tools or instruments to study how catalysts behave in some desired reaction. Quantitatively, the investigator wants to know how much of the desired product can be made per unit weight of catalyst, how much raw material will be used, and what byproducts will be made. This is the basic information needed to estimate the costs and profitability of the process. The economic consequence of our estimates also forces us to clarify what the rate limiting steps are, and how much transfer processes influence the rates, i.e., everything that is needed for a secure scale-up. Making the... [Pg.5]

Deuterium isotope effect (Section 11.8) A tool used in mechanistic investigations to establish whether a C-H bond is broken in tbe rate-limiting step of a reaction. [Pg.1239]

From the previous discussion, it is clear that relaxation experiments constitute a very powerful tool for investigation of the structure and conformation of carbohydrate molecules in solution. However, the nature of the individual problem may determine which relaxation experiment should be chosen in order to extract interproton distances to the desired accuracy of < 0.2 A. Although the limitations and relative merits of all of the various relaxation methods have not yet been systematically studied, accumulated experience provides some direct knowledge about the range of errors associated with relaxation experiments. [Pg.163]

Based on the limitations of using human subjects, simple alternative in vitro models were developed to investigate mechanisms involved in the intestinal absorption process of a compound of interest and to screen the relative bioavailability of a compound from various food matrices. However, the data generated from in vitro approaches must be taken with caution because they are obtained under relatively simplified and static conditions compared to dynamic physiological in vivo conditions. Indeed, the overall bioavailability of a compound is the result of several complex steps that are influenced by many factors including factors present in the gastrointestinal lumen and intestinal cells as described later. Nevertheless, these in vitro approaches are useful tools for guiding further smdies in humans. [Pg.152]

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See also in sourсe #XX -- [ Pg.5 ]



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