Integrity interpretation

The measurement of natural radioactivity with a y-ray detector determined the activity coefficient (the quantity of y-rays emitted), whieh is a specific characteristic of each type of sediment or rock. Specifically, a high y-ray count indicates the unmistakable presence of a elay matrix and thus constitutes useful information for the synthesized, integrated interpretation of this and other measurements performed. 

Neumann, E. Nachmansohn, D. Katchalsky, A. An attempt at an integral interpretation of nerve excitability. Proc. Nat. 

T6th (1978) proposed an analysing technique for the quantitative assessment of cross-formational gravity-induced groundwater flow systems and the genetic explanation of the identified systems, based on the integrated interpretation of the following five pressure-related parameters ... 

Arp, G.K., 1992. An integrated interpretation for the origin of the Patrick Draw oil-ficid sage anomaly, Amcr.Assoc. Pet. Gcol. Bull., 76 301-306. 

A workshop on Preclinical Evaluation of Peptides and Recombinant Proteins provided an integrated interpretation of preclinical toxicology data for... 

Tezuka, K. and Niitsuma, H. (1997). Integrated interpretation of microseismic clusters and fracture system in a hot dry rock artificial reservoir. Expanded Abstr., SEG 67 Ann. Intern. Meeting. 

Connecting the integral interpretation of electronegativity with its actual interpretation as the power of holding electrons in the... 

GIS and image analysis Geographic information systems visualization and interpretation Integrated interpretation of geological, geophysical and geochemical databases... 

In summary, exploration activities require the integration of different techniques and disciplines. Clear definition of survey objectives is needed. When planning and executing an exploration campaign the duration of data acquisition and interpretation has to be taken into account. 

A more elaborate theoretical approach develops the concept of surface molecular orbitals and proceeds to evaluate various overlap integrals [119]. Calculations for hydrogen on Pt( 111) planes were consistent with flash desorption and LEED data. In general, the greatly increased availability of LEED structures for chemisorbed films has allowed correspondingly detailed theoretical interpretations, as, for example, of the commonly observed (C2 x 2) structure [120] (note also Ref. 121). 

Equation (Bl.1,1) for the transition moment integral is rather simply interpreted in the case of an atom. The wavefiinctions are simply fiinctions of the electron positions relative to the nucleus, and the integration is over the electronic coordinates. The situation for molecules is more complicated and deserves discussion in some detail. 

The interpretation of emission spectra is somewhat different but similar to that of absorption spectra. The intensity observed m a typical emission spectrum is a complicated fiinction of the excitation conditions which detennine the number of excited states produced, quenching processes which compete with emission, and the efficiency of the detection system. The quantities of theoretical interest which replace the integrated intensity of absorption spectroscopy are the rate constant for spontaneous emission and the related excited-state lifetime. 

Symplectic integration methods replace the t-flow (pt,H by the symplectic transformation which retains Hamiltonian features of They poses a backward error interpretation property which means that the computed solutions are solving exactly or, at worst, approximately a nearby Hamiltonian problem which means that the points computed by means of symplectic integration, lay either exactly or at worst, approximately on the true trajectories [5]. 

Conventional filtration theory has been challenged a two-phase theory has been appHed to filtration and used to explain the deviations from paraboHc behavior in the initial stages of the filtration process (10). This new theory incorporates the medium as an integral part of the process and shows that the interaction of the cake particles with the medium controls filterabiHty. It defines a cake-septum permeabiHty which then appears in the slope of the conventional plots instead of the cake resistance. This theory, which merely represents a new way of interpreting test data rather than a new method of siting or scaling filters, is not yet accepted by the engineering community. 

Carbon-13 nmr. Carbon-13 [14762-74-4] nmr (1,2,11) has been available routinely since the invention of the pulsed ft/nmr spectrometer in the early 1970s. The difficulties of studying carbon by nmr methods is that the most abundant isotope, has a spin, /, of 0, and thus cannot be observed by nmr. However, has 7 = 1/2 and spin properties similar to H. The natural abundance of is only 1.1% of the total carbon the magnetogyric ratio of is 0.25 that of H. Together, these effects make the nucleus ca 1/5700 times as sensitive as H. The interpretation of experiments involves measurements of chemical shifts, integrations, andy-coupling information however, these last two are harder to determine accurately and are less important to identification of connectivity than in H nmr. 

Definiteness. Adequate description or definiteness requites that the patent claims provide an outline of those elements which are integral to the appHcation s invention. In turn, the specification acts as a dictionary wherein the reader can interpret and understand the elements in the patent claims. Complementary to the requirement of definiteness is the requirement that the appHcation must disclose the entire invention. The appHcant cannot make a claim of right to the invention where essential elements of the invention are not disclosed in the patent. 

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