Speed dynamics

Type of Drive Speed Range Starting Torque Maximum Speed Dynamic Response... 

Collet, J.-P., Park, D., Lesty, C., Soria, J., Soria, C., Montalescot, G., and Weisel, J. W. (2000). Influence of fibrin network conformation and fibrin fiber diameter on fibrinolysis speed Dynamic and structural approaches by confocal microscopy. Arterioscler. Thromb. Vase. Biol. 20, 1354-1361. 

The most widespread polymer currently in use for high-speed dynamic sealing applications in automotives is polyetheretherketone. These thermoplastic aromatic polymers are used in the aerospace, electronics, and nuclear industries [9], These materials have excellent mechanical- and chemical-resistance properties, which permit polyethere-therketones to be used in many engineering applications—often in harsh environments [10], These polyetheretherketones are the product of the reaction of 1,4-dihydroxyben-zene and 4,4 -di II non then /ophenonc [8]. Figure 6.5 shows this reaction. 

Deposition of an excess volume of a solution onto the center of a substrate that might be held in a perfect horizontal position, either immobile (static dispense) or rotating at a relatively low speed (dynamic dispense). Other modes of deposition can be implemented [138]. 

Description To reduce the price and increase the building speed, dynamic-mask-based... 

A common application of data compression, which illustrates lossless compression, is the fax machine. This requires a variable bandwidth and some statistical knowledge of the incoming data. A blank page is processed much more quickly than a complicated page, the feed speed dynamically changing as the text detail changes. This adjusts the bandwidth of the scanner input to maintain a fixed 9600 Bd (9.6 kb/s) rate into the telecom line. 

Y.-M. Zhu and D.-K. Yang, High-speed dynamic drive scheme for bistable re-fletive cholesteric displays, SID Digest 97, 97-100 (1997). 

In 2001, Hanke, Price and Lynden-BelP were the first to conduct an atomistic simulation of compovmds that can be called ionic liquids under our definition. They used molecular dynamics to model the crystalline state of 1,3-dimethylimidazolium chloride ([Cimim][Cl]), 1,3-dimethylimidazolium hexafluorophosphate ([CimimllPFg]), l-ethyl-3-methylimidazolium chloride ([C2mim][Cl]), and l-ethyl-3-methylimidazolium hexafluorophosphate ([C2 mimJlPFg]). They also modeled the liquid state of [Cimim][Cl] and [Cimim] [PFg], both of which are relatively high melting substances. Because of this (and the need to speed dynamics and thus limit computation times), the liquid simulations were carried out at temperatures between 400 and 500 K. The form of the potential function they used was... 

Once initiated, avalanche flows, triggered by the buildup of shear stress, typically have relatively high-speed dynamics. Slow shear flows, such as Couette flow, also exhibit buildup of stress, with a release that may be much slower than in avalanches. 

Robb R.A., et. al. The Dynamic Spartial Reconstructor a computed tomography system for high-speed simultaneous scanning of multiple cross section of the heart., J. Med. Syst., V. 4, 1980, p. 253-288. 

Abstract. Molecular dynamics (MD) simulations of proteins provide descriptions of atomic motions, which allow to relate observable properties of proteins to microscopic processes. Unfortunately, such MD simulations require an enormous amount of computer time and, therefore, are limited to time scales of nanoseconds. We describe first a fast multiple time step structure adapted multipole method (FA-MUSAMM) to speed up the evaluation of the computationally most demanding Coulomb interactions in solvated protein models, secondly an application of this method aiming at a microscopic understanding of single molecule atomic force microscopy experiments, and, thirdly, a new method to predict slow conformational motions at microsecond time scales. 

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