The abbreviations , in Tables

The function of this chapter is to review these methods with emphasis on the types of phenomenology involved and information obtained. Many of the effects are complicated, and full theoretical descriptions are still lacking. The wide variety of methods and derivative techniques has resulted in a veritable alphabet soup of acronyms. A short list is given in Table VIII-1 (see pp. 313-318) the lUPAC recommendations for the abbreviations are found in Ref. 1.  [c.293]

Abbreviations Used in the Table  [c.224]

Abbreviations Used in the Table  [c.582]

Abbreviations Used in the Table  [c.655]

Abbreviations Used in the Table  [c.730]

Abbreviations Used in the Table  [c.736]

Abbreviations Used in the Table  [c.738]

Abbreviations Used in the Table  [c.743]

Abbreviations Used in the Table  [c.746]

Abbreviations Used in the Table  [c.747]

Abbreviations Used in the Table  [c.760]

Abbreviations Used in the Table  [c.765]

Abbreviations Used in the Table  [c.766]

Abbreviations Used in the Table  [c.767]

Abbreviations Used in the Table  [c.768]

Abbreviations Used in the Table  [c.771]

Abbreviations Used in the Table  [c.773]

Abbreviations Used in the Table  [c.774]

Abbreviations Used in the Table  [c.775]

Abbreviations Used in the Table  [c.776]

Abbreviations Used in the Table  [c.781]

In the table, L is the abbreviation of the organic ligand.  [c.833]

Abbreviations Used in the Table (—2), doubly ionized anion  [c.900]

This table lists some selected indicators. The pH range or transition interval given in the third column may vary appreciably from one observer to another, and, in addition, it is affected by ionic strength, temperature, and illumination consequently only approximate values can be given. They should be considered to refer to solutions having low ionic strengths and a temperature of about 25°C. In the fourth column the pK ( log KJ of the indicator as determined spectrophotometrically is listed. In the fifth column the wavelength of maximum absorption is given first for the acidic and then for the basic form of the indicator, and the same order is followed in giving the colors in the sixth column. The abbreviations used to describe the colors of the two forms of the indicator are as follows  [c.943]

Abbreviations Used in the Table Bu, butyl Me, methyl  [c.973]

Abbreviations Used in the Table FP, freezing point BP, boiling point  [c.1217]

Abbreviations Used in the Table FP, freezing point BP, boiling point  [c.1218]

These molecules are also called polypeptides, especially in cases where M < 10,000. The various amino acids differ in R groups. The nature of R, the name, and the abbreviation used to represent some of the more common amino acids are listed in Table 1.3. In proline (Pro) and hydroxyproline (Hyp), the nitrogen and the o-carbon are part of the five-atom pyrrolidine ring. Since some of the amino acids carry substituent carboxyl or amino groups, protein molecules are charged in aqueous solutions, and hence migrate in electric fields. This is the basis of electrophoresis as a means of separating and identifying proteins.  [c.19]

Content. Although formats of materials specifications may vary according to the need, the principal elements ate tide, statement of scope, requirements, quaUty assurance provisions, appHcable reference documents, and preparations for deUvery, notes, and definitions. The scope statement comprises a brief description of the material, possibly its intended area of appHcation, and categorization of the material by type, subclass, and quaUty grade. Requirements may include chemical composition, physical properties, processing history, dimensions and tolerances, and/or finish. QuaUty assurance factors ate test methods and equipment including precision accuracy and repeatabiUty sampling procedures inspection procedures, ie, acceptance and rejection criteria and test certification. Reference documents may include citation of weU-estabhshed specifications, codes and standards, definitions and abbreviations, drawings, tolerance tables, and test methods. Preparations for deUvery ate the instmctions for packing, marking, shipping mode, and unit quantity of material in the shipment. The notes section is intended for explanations, safety precautions, and other details not coveted elsewhere.  [c.21]

Occasionally abbreviations such as Ny-6 or Ny-6,12 are seen, but these are to be avoided. More complex organic radicals, eg, branched, aUcychc, or aromatic, that appear between the amide functions are generally designated by special abbreviations many of the more common ones appear in Table 1. Copolymers are generally designated by writing the symbols for the two polymers separated by a slash, eg, nylon-6,6/6,T, with the component in the higher concentration Hsted first. This method is readily extended to polymers containing three or more components.  [c.215]

The abbreviation for the composition has the form initiator—1st oxide—2nd oxide. The abbreviations for the initiators are shown in Table 4. PO and EO are propylene oxide and ethylene oxide, respectively.  [c.351]

Lower aliphatic amines are derivatives of ammonia with one, two, or all three of the hydrogen atoms replaced by alkyl groups of five carbons or less. Amines with higher alkyl groups are known as fatty amines. The name, chemical formula, molecular weight, CAS Registry Number, and common name or abbreviation of commercially important amines are given in Table 1. Amines are toxic, colorless gases or Hquids, highly flammable, and have strong odors. Lower mol wt amines are water soluble and are sold as aqueous solutions and in pure form. Amines react with water and acids to form alkyl ammonium compounds analogous to ammonia. The base strengths in water of the primary, secondary, and tertiary amines and ammonia are essentially the same, as shown by the equiUbrium constants. Values of for some individual amines are given in Table 2.  [c.197]

Abbreviations of prominent use properties of the various classes of commercial surfactants are shown in Table 1. Antimicrobial activity includes germicidal, bactericidal, and bacteriostatic effects emolliency describes lubrication or a soft feel imparted to skin by surfactants a hair conditioner is a substantive surfactant appHed from aqueous solution to impart a lubricating or antistatic effect and opacifters are used to thicken hand-dishwashing products and cosmetic preparations to convey an appearance of high concentration and to retard solvent drainage from foam.  [c.233]

Abbreviations Used in the Table  [c.72]

Several poly aryl ether ketones, generically given the abbreviation PAEK, have been reported in the literature, including those shown in Table 21.5. Of these, three have been in commercial production. They are  [c.603]

In Table 1, drawn up by the author, of abbreviations in common use those in bold type are in the main schedule of BS 3502. In this list the names given for the materials aie the commonly used scientific names. This situation is further complicated by the adoption of a nomenclature by the International Union of Pure and Applied Chemistry for systematic names and a yet further nomenclature by the Association for Science Education which is widely used in British schools but not in industry. Some examples of these are given in Table 2. Because many rubbery materials have been referred to in this book. Tables 3 and 4 list abbreviations for these materials.  [c.943]

In addition to the nomenclature based on ISO and ASTM recommendations several other abbreviations are widely used. Those most likely to be encountered are shown in Table 4.  [c.948]

Table 1 is a compilation of chemical and physical properties data for selected atmospheric contaminants. This information is useful for evaluating pollution problems. The following are abbreviations used in the table.  [c.148]

Abbreviated examples of What-lf/Checklist analyses of the Dock 8 HF Supply System and the Cooling Tower Chlorination System are shown in Tables 3.3.3-2 and 3.3.3-3. The tables show the additional scenarios identified by applying the Checklist to What-lf.  [c.86]

The compounds considered in this work are shown in Table 1. These particular siloxane compounds have been described elsewhere [42]. A system of abbreviation already in use for these compounds is given in the same table. Their abbreviated formulas are expressed on a standard functional basis in Table 1 along with the name of the compound. An explanation of the units in the abbreviated formulas is given below  [c.10]

For each choice of n (the number of points), the w, and the n zeros ( ) of the nth degree Legendre polynomial must be determined by requiring that the approximation be exact for polynomials of degree less than 2n + 1. These have been determined for n = 2 through 95 and an abbreviated table for some n is given in Table 1-16. The interval - 1 < < I is transformed onto the interval a < X < b by calculating for each x, (k = 1,. . ., n)  [c.82]

Bashforth and Adams obtained solutions to Eq. 11-17 (with / i replaced by the expression in analytical geometry), using a numerical integration procedure (this was before the day of high-speed digital computers, and their work required tremendous labor). Their results are reported as tables of values of x/b and z/b for closely spaced values of j3 and of . For a given value, a plot of z/b versus x/b gives the profile of a particular figure of revolution satisfying Eq. 11-17. By way of illustration, their results for j3 = 80 are reproduc (in abbreviated form) in Table II-l. Observe that x/b reaches a maximum at 4> = 90°, so that in the case of zero contact angle the surface is now tangent to the capillary wall and hence (x/b)mix = r/b. The corresponding value of r/a is given by (r/b) Vfi/2. In this manner, Sugden compiled tables of r/b versus r/a.  [c.14]

The possibility of P-H and P-P bonds in phosphorus oxoacids, coupled with the ease of polymerization via P-O-P linkages enables innumerable acids and their salts to be synthesized. P requently mixtures arc obtained and these can be separated by paper chromatography, paper electrophoresis, thin-layer chromatography, ion exchange or gel chromatography. - Much ingenuity has been expended in de,signing appropriate syntheses but no new principles emerge. A few examples arc listed in Table 12.9 to illustrate both the range of compounds available and also the abbreviated notation, which proves to be more convenient than formal systematic nomenclature in this area. In this notation the sequence of P-P and P-O-P links is indicated and the oxidation state of each P is shown as a superscript numeral which enables the full formula (including P-H groups) to be deduced.  [c.516]

Table 12.9 Some lower oxoacids of phosphorus (Supcrscripl numerals in the abbreviated notation indicate oxidation stales) Table 12.9 Some lower oxoacids of phosphorus (Supcrscripl numerals in the abbreviated notation indicate oxidation stales)
In conclusion, we attempt to provide a snapshot of current research in Raman spectroscopy. Since any choice of topics must be necessarily incomplete, and certainly would reflect our own scientific bias, we choose, instead, an arbitrary approach (at least one not that is not biased by our own specialization). Thus an abbreviated sunnnary of the topics just presented in die keynote/plenary lectures at ICORSXVI in Cape Town, South Africa, is presented. Each of the 22 lectures appears in the Proceedings (and Supplement) of the 16th International Conference on Raman Spectroscopy (1998), edited by A M Heyns (Chichester Wiley) in a four-page fonnat, almost all containing a short list of references. Rather than ourselves searching for seminal citations, we instead give the e-mail address of the principal author, when available. Though the intent in this procedure is to expose the wide scope of current Raman activity, it is hoped that the reader who is looking for more details will not hesitate to seek out the author in this fashion, and that the authors will not feel put upon by this maimer of directing people to their work. To relate to table B 1.3.1 and tableBl.3.2. the acronym is given for the principal Raman spectroscopy that is used for each entry.  [c.1217]

The initial step is to identify which database, from a few thousands worldwide (about 10 000 in 2002), provides the requested information. The next step is to determine which subsection of the topic is of interest, and to identify typical search terms or keywords (synonyms, homonyms, different languages, or abbreviations) (Table 5-1). During the search in a database, this strategy is then executed (money is charged for spending time on some chemical databases). The resulting hits may be further refined by combining keywords or database fields, respectively, with Boolean operators (Table 5-2). The final results should be saved in electronic or printed form.  [c.230]

See pages that mention the term The abbreviations , in Tables : [c.9]    [c.356]    [c.257]    [c.547]   
Structure Elucidation by NMR in Organic Chemistry (2002) -- [ c.0 ]