Experimental implications

J. Klein and G. Rossi Analysis of the Experimental Implications of the Scahng Theory of Polymer Adsorption. Macromolecules 31, 1979 (1998). 

V. Operators That Commute and the Experimental Implications Two hermitian operators that commute [R, S] = RS - SR = 0... 

My years of cooperation with Moshe at the Weizmann Institute preceded his brilliant work on coherent control. However, the qualities that led him to his highlight work were all there the sharpness of his thinking, his grasp of formal theory, and the insights into experimental implications. My choice of photochemistry as the topic of my contribution was influenced by his long-term interest in photodissociation and the fact that we had cooperated, among other topics, on photochemistry at surfaces. 

For a detailed discussion of the theoretical and experimental implications of tachyon neutrinos, we refer the reader to Refs. 11 and 1. 

The rise time of the A fluorescence differs from a convolution (C,) of the exponential A decay with the experimental decay function of the precursor B fluorescence manifesting a time-dependent rate constant. This is nicely shown in Fig. 2.19 on a picosecond time scale, where these effects are especially strong. The rise of the A fluorescence is significantly faster than the rise of C,. In contrast, similar rise times would be expected if a nB population proportional to i (t) were feeding the A state with a time-independent rate constant.78,79 In Section IV, a more-detailed analysis of the results will derive the explicit time dependence of k(t). It turns out that, for early times, k(t) possesses a maximum. In Section V, the experimental implications will be discussed. 

Popp B. V. Wendlandt J.E. Landis C. R. Stahl S. S. Reaction of molecular oxygen with an NHC-coordinated Pd° complex computational insights and experimental implications. Angew. Chem., Int. Ed. 2007, 46, 601-604. 

The relation between the changing relaxation time distribution and the molecular structure of the curing system has not been determined. There is, however, one important experimental implication to these observations. Because both sr and p change during cure, one must actually measure the complete frequency dependence of the e and e" at a given state of cure in order to characterize the relaxation time distribution. Measurements made at one frequency throughout the cure process, when plotted on a Cole-Cole diagram, do not necessarily provide information about the relaxation time distribution. 

What are the experimental implications of this dielectric relaxation model To answer this question let us start again from... 

Equation (26) has important experimental implications, since the noise, in the form of residual current, associated with a steady-state current signal is typically proportional to the area of the electrode. This equation thus serves as a useful guide of the minimum substrate size that can be employed experimentally to maximize the signal-to-noise ratio in TG/SC measurements. 

Over the last few years a large number of distinct NLSs have been experimentally implicated in nuclear transport [31,78], NLSdb [82] is the largest publicly available database of experimental NLSs. However, known experimental NLSs can account for fewer than 10% of known nuclear proteins. To remedy this, PredictNLS [62] uses a procedure of in silico mutagenesis to discover new NLSs. Briefly, this procedure works as follows ... 

Calculate absorbance-time curves for a gold film OTE at which a reduction product is produced with 8r = 10, 10, and 10 cm Let Dq = 1 X 10 cm /s, and Cq = 1 mM. Draw graphs for times ranging from 1 to 100 ms. Conunent on the magnitudes of the absorbances and their experimental implications. 

Mo-Fe Protein. The chemical and physical characteristics of purified Mo-Fe protein from Azotobacter (58, 98, 99) and Clostridium 94,100) are summarized in Table VI. This protein will be described in detail since our current experimentation implicates the Mo and Fe of this protein at the complexation and reduction site(s) of N2 and other substrates. Furthermore, it is the only protein for which definitive data on homogeneous preparations are available. 

Regardless of our analysis, the carbene should approach the olefin in a non-linear manner, Frankly, the experimental significance of this is not completely clear. There are no obvious experimental implications for a linear vs. a non-linear approach. Theory clearly favors the non-linear path, but in this instance that prediction does not strongly influence experimental observations. 

The algorithm presented is shown to drive a single Cray-XMP processor at over HO Mflops. A sample H D pure rotational spectrum and line strengths for H3 hot bands are presented. The experimental implications of these results are briefly discussed. 

In the following sections we shall present several cross effects in detail to illustrate the experimental implications of Onsager s reciprocal relations. 

In this chapter an overview has been given of some recent developments in our understanding of ion exchange in molecular sieves, with particular reference to experimental implications and methods. Research activity has declined from what was a quite high level in the 1960s and 1970s the case for more fundamental studies on this topic seems compelling, especially the kinetic aspects. 

In the following sections several models elaborated for conducting disordered systems are presented most of them are based on variable range hopping (VRH) and/or on tunneling mechanisms. One has to stress that usually it is not easy to determine which model best describes the conductivity mechanism in the given investigated material, since experimental data (e.g., temperature dependence of the dc conductivity) can often be fitted by several theoretical equations. Therefore, there is a need to analyze the different experimental implications of the models. 

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