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Applications Practical Examples

In eachof the Sections 10-27, the chief physical propertiesof the compounds concerned are Erst briefly indicated a list of the gen eral reactionsf is then given, followed by practical directions for the application or illustration of these general reactions. The types of crystalline derivatives which can be most readily and reliably prepared are then given, with practical examples. Finally, any important special reactions of individual members are described. [Pg.318]

This handbook deals mainly with the practice of cathodic protection, but the discussion includes fundamentals and related fields as far as these are necessary for a complete review of the subject. We thought it appropriate to include a historical introduction in order to explain the technological development of corrosion protection. The second chapter explains the theoretical basis of metal corrosion and corrosion protection. We have deliberately given practical examples of combinations of various materials and media in order to exemplify the numerous fields of application of electrochemical protection. [Pg.582]

An interesting and practical example of the use of thermodynamic analysis is to explain and predict certain features that arise in the application of chromatography to chiral separations. The separation of enantiomers is achieved by making one or both phases chirally active so that different enantiomers will interact slightly differently with the one or both phases. In practice, it is usual to make the stationary phase comprise one specific isomer so that it offers specific selectivity to one enantiomer of the chiral solute pair. The basis of the selectivity is thought to be spatial, in that one enantiomer can approach the stationary phase closer than the other. If there is no chiral selectivity in the stationary phase, both enantiomers (being chemically identical) will coelute and will provide identical log(Vr ) against 1/T curve. If, however, one... [Pg.80]

Accelerators are responsible for many fundamental discoveries as well as many practical applications. An example of a fundamental discovery was the observation of the W and Z particles that carry the weak force that is responsible, along with the strong and electromagnetic forces, for the fact that the sun shines. An example of a practical application is the use of accelerator beams to kill cancerous tumors in patients. [Pg.937]

Knowledge of chemical principles pays rewards in technological progress. Control of chemical reactions is the key. The large scale commercial production of nitrogen compounds provides a practical example of the beneficial application of Le Chatelier s Principle. [Pg.150]

The purpose of this final chapter is to provide the analyst with a background of practical examples to aid in the selection of, firstly, the best chromatographic method and, secondly, the best phase system when faced with an hitherto unknown sample for analysis. The literature is rich with LC applications and frequently publications are available for the separation of closely similar mixtures to that of the sample. It is unlikely, however, that the chromatographic conditions for the actual separation required will be available and, even if they are, the conditions reported may well not be optimum. This is more likely to be true for those applications that are described in earlier publications. Nevertheless, conditions that have be successfully employed for related separations may certainly help to identify those conditions necessary for the sample supplied for assay. [Pg.281]

Electrochemical reactions have many practical applications. Some are spontaneous, and others are driven uphill by applying an external potential. In this section, we present practical examples of spontaneous redox processes. We describe externally driven redox reactions in Section 19-1. [Pg.1400]

Before dealing with various important applications of the electrochemical series with some practical examples, a break is given here to present a more detailed elaboration on the hydrogen electrode, reference electrodes, and some of the theoretical and general aspects pertaining to electrode potentials and free energy changes involved with cell reactions. [Pg.639]

The interaction between the dispersed-phase elements at high volume fractions has an impact on breakup and aggregation, which is not well understood. For example, Elemans et al. (1997) found that when closely spaced stationary threads break by the growth of capillary instabilities, the disturbances on adjacent threads are half a wavelength out of phase (Fig. 43), and the rate of growth of the instability is smaller. Such interaction effects may have practical applications, for example, in the formation of monodisperse emulsions (Mason and Bibette, 1996). [Pg.195]

The electrolyte was a solution of ammonium chloride that bathed the electrodes. Like Plante s electrochemistry of the lead-acid battery, Leclanche s electrochemistry survives until now in the form of zinc-carbon dry cells and the use of gelled electrolyte.12 In their original wet form, the Leclanche electrochemistry was neither portable nor practicable to the extent that several modifications were needed to make it practicable. This was achieved by an innovation made by J. A. Thiebaut in 1881, who through encapsulating both zinc cathode and electrolyte in a sealed cup avoided the leakage of the liquid electrolyte. Modern plastics, however, have made Leclanche s chemistry not only usable but also invaluable in some applications. For example, Polaroid s Polar Pulse disposable batteries used in instant film packs use Leclanche chemistry, albeit in a plastic sandwich instead of soup bowls.1... [Pg.1305]

One of the special features is the extensive discussion and explanation of the interdependence between polymer structure, properties, and processing. The book contains numerous application-oriented examples and is presented at an intermediate level for both practicing plastics engineers and advanced engineering students. [Pg.418]

There are natural targets whose syntheses have important practical applications. For example, paclitaxel (marketed as Taxol by Bristol-Myers Squibb) is an anticancer compound originally isolated from the bark of a species of yew tree, but for a long time it seemed that natural sources would not be sufficient to meet the need. Consequently, many chemists developed synthetic approaches to paclitaxel from readily available materials, although these are not yet fully practical for manufacturing. The quest continues, and a semisynthetic route has been developed starting with a compound isolated from yew needles that can be harvested without destroying the tree. An alternative approach has employed plantcell cultures in bioreactors to produce paclitaxel from yew needles (see Chapter 7 for discussion of related matters). [Pg.26]

In practice, it may be difficult to determine in advance which method is best to use for a particular application. For example, the CFD results may be more sensitive to large-scale inhomogeneities in the flow field than to the chemical source term closure. A rational approach to determine whether a more detailed SGS model is needed might be to start with N — 1 (laminar-chemistry approximation) and compare the predicted mean chemical species fields to the two-environment model (N — 2). If the differences are small, then the simpler model is adequate. However, if the differences are large, then the CFD simulation can be repeated with N — 3 and the results compared to N — 2. Naturally, once this procedure has converged, it will still be necessary to validate the CFD results with experimental data whenever possible. Indeed, it may be necessary to... [Pg.272]

The following section deals with kinetic equations for the simple Michaelis-Menten kinetics with more than two intermediates subsequently, their application for the interpretation of hydrogenations in practical examples is discussed. [Pg.277]

It is worth remarking that a gas sensor array is a mere mathematical construction where the sensor outputs are arranged as components of a vector. Arrays can also be utilized to investigate the properties of chemical sensors, or even better, the peculiar behaviour of a sensor as a component of an array. In this chapter, the more common sensor array methodologies are critically reviewed, including the most general steps of a multivariate data analysis. The application of such methods to the study of sensor properties is also illustrated through a practical example. [Pg.147]

The first practical example of electrodes able to satisfy many of the characteristics required in the application of chlor-alkali electrolysis is a particular family of doublesided gas-diffusion electrodes introduced some years ago under the trade name of ESNS , by E-TEK Inc. (now a Division of DeNora North America). The dual function (electrode and separator) of this electrode structure was achieved with an accurate choice of the basic components. [Pg.134]

The focus is on multivariate statistical methods typically needed in chemo-metrics. In addition to classical statistical methods, also robust alternatives are introduced which are important for dealing with noisy data or with data including outliers. Practical examples are used to demonstrate how the methods can be applied and results can be interpreted however, in general the methodical part is separated from application examples. [Pg.17]

Typical applications in calibration are reviewed and as practical example data from the determination of the pesticide fenvalerate by gas chromatography with electron capture detection are evaluated. [Pg.167]

This chapter will illustrate the process of solving crystal structures using the maximum entropy (ME) method. In the first section the theory is described this is followed by a practical example of the method in action, and there is then a brief review of other applications. [Pg.337]

Practical Examples of Near-Infrared Analytical Applications... [Pg.147]

We will highlight this system by first giving a brief overview of the architecture, followed by some practical examples that cover several common tasks in the drug discovery process. The goal is not to give a detailed account of the methods employed, but rather to illustrate how the system functions in practice. We will present as examples some of the most widely used chemoinformatics applications customized database access, similarity and substructure searching, reactant selection, and library design. [Pg.67]

Redox equilibrium of Ag(I I [-porphyrin /Ag(III) is characterized with = 0.59 V versus SCE [412]. Evidently, corroles and carbaporphyrins are able to stabilize the Ag(III) oxidation state, presumably due to the presence of 7r-electron donors, which reduce the formal oxidation state of the metal in such complex [396]. It is expected that such complexes have potential practical applications, for example, as the catalysts in the electron-transfer reactions. [Pg.947]

The most important application of acid-base solutions containing a common ion is buffering. Thus, a buffer solution will marntam a relatively constant pH even when acidic or basic solutions are added to it. The most important practical example of a buffered solution is human blood, which can absorb the acids and bases produced by biological reactions without changing its pH. The normal pH of human blood is 7.4. A constant pH for blood is vital, because cells can only survive this narrow pH range around 7.4. [Pg.13]


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See also in sourсe #XX -- [ Pg.96 , Pg.255 ]




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