Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Dynamic interactive systems

Keywords Carbonic anhydrase Dynamic constitutional chemistry Dynamic interactive systems Hybrid materials... [Pg.33]

External Stimuli Recomposition/Selection of DCL Towards the Dynamic Interactive Systems ... [Pg.39]

Barboiu M (2010) Dynamic interactive systems dynamic selection in hybrid organic-inorganic constitutional networks. Chem Commun (Camb) 46 7466-7476... [Pg.51]

Constitutional Self-Assembly Toward Complex Architectures (Pantos and Sanders, Custelcean, and Quemener et al.), and 3. Constitutional Dynamic Chemistry Toward Dynamic Interactive Systems (Barboiu, Mahon et al., Giussepone et al., and Stadler et al.). [Pg.327]

Kutzelnigg W and Maeder F 1978 Natural states of interacting systems and their use for the calculation of intermolecular forces. III. One-term approximations of oscillator strength sums and dynamic polarizabilities Chem. Phys. 35 397... [Pg.212]

Although the concern is primarily for the response of the piping. system, the possibiliis of dynamic coupling with the containment structure should not be neglected. A concern is whether or not the secondary shield wall will withstand the dynamic interaction between the walls and the pump. This is answered by examining the mode shapes if there were no coupling between the walls and the pump. [Pg.192]

The natural frequency, co associated with the mode shape that exhibits a large displacement of the pump is compared with the fundamental frequency, of the wall. If co is much less than ru, then the dynamic interaction between the wall and the loop may be neglected, but the kinematic constraint on the pump imposed by the lateral bracing is retained. If nearly equals nr , the wall and steam supply systems are dynamically coupled. In which case it may be sufficient to model the wall as a one-mass system such that the fundamental frequency, Wo is retained. The mathematical model of the piping systems should be capable of revealing the response to the anticipated ground motion (dominantly translational). The mathematics necessary to analyze the damped spring mass. system become quite formidable, and the reader is referred to Berkowitz (1969),... [Pg.192]

Disadvantages may arise because the behavior observed may not be fully realistic. A static simulation, for instance, may not reveal the true nature of operators dynamic interaction with the system. There is also the possible disadvantage of behavior in a simulator not fully replicating that found in the real situation. This can happen because of the absence of real stressors found in the actual task, for example, risk to life, criticality of the process, and presence of other workers and supervisors. [Pg.160]

Animal behavior has been dehned by Odnm (1971) as the overt action an organism takes to adjnst to its environment so as to ensure its survival. A simpler definition is the dynamic interaction of an animal with its enviromnent (D Mello 1992). Another, more elaborate, one is, the outward expression of the net interaction between the sensory, motor arousal, and integrative components of the central and peripheral nervons systems (Norton 1977). The last dehnition spells out the important point that behavior represents the integrated function of the nervous system. Accordingly, disruption of the nervous system by neurotoxic chemicals may be expected to cause changes in behavior (see Klaasen 1996, pp. 466-467). [Pg.295]

Ion-exchange chromatography (lEC) is used mainly for the separation of ions and easily ionized substances (e.g., substances that form ions by pH manipulation or complexation) in which one of the principal contributions to retention is the electrostatic attraction between mobile phase ions, both sa le and eluent, for immobilized ion centers of opposite charge in the stationary phase. The sample ions are separated based on differences in their relative affinity for the stationary phase ion centers compared to that of the mobile phase counterions in a dynamic exchange system, in which sample ions and eluent ions interact with multiple stationary phase ion centers as they pass through the column. Ion-... [Pg.216]

Figure 16. Radius of gyration versus time for MPC dynamics (solid line) that includes hydro-dynamic interactions and Boltzmann sampling of velocities (dashed line) without hydrodynamic interactions. System parameters Nb — 200 and T — 0.8. From Kikuchi, et al., 2002. Figure 16. Radius of gyration versus time for MPC dynamics (solid line) that includes hydro-dynamic interactions and Boltzmann sampling of velocities (dashed line) without hydrodynamic interactions. System parameters Nb — 200 and T — 0.8. From Kikuchi, et al., 2002.
Dynamic interaction between primary disease neurobiology and adaptations — measuring overall system response ... [Pg.399]

This dynamical formulation of the equilibrium correlations in an interacting system will be the starting point of our analysis of equilibrium electrolytes. Of course, this method gives results analogous to the more usual methods based on the canonical distribution 40... [Pg.182]

Some studies on dynamic interaction effects for two degree of freedom systems have been done by Baker 1983 (pp. 415-418). Although these studies were made using a limited range of variables, results indicate that conservative responses can be obtained using uncoupled SDOF system approximations versus a coupled approach. [Pg.174]

When the structural configuration is complex or, significant dynamic interaction between interconnected members can not be avoided, a coupled analysis approach can be used. The coupled analysis approach can include as few as two degrees of freedom to represent a structural system or it can involve theuseofmany degrees of freedom in a single, comprehensive dynamic analysis of the entire superstructure. [Pg.181]

To illustrate the concept, consider a single distillation column with distillate and bottoms products. To produce these products while using the minimum amount of energy, the compositions of both products should be controlled at their specifications. Figure 8.13u shows a dual composition control system. The disadvantages of this structure arc (1) two composition analyzers are required, (2) the instrumentation is more complex, and (3) there may be dynamic interaction problems since the two loops are interacting. This system may be difficult to design and to tune. [Pg.275]


See other pages where Dynamic interactive systems is mentioned: [Pg.39]    [Pg.142]    [Pg.326]    [Pg.39]    [Pg.142]    [Pg.326]    [Pg.436]    [Pg.246]    [Pg.212]    [Pg.367]    [Pg.383]    [Pg.402]    [Pg.76]    [Pg.79]    [Pg.361]    [Pg.94]    [Pg.5]    [Pg.410]    [Pg.259]    [Pg.398]    [Pg.72]    [Pg.93]    [Pg.227]    [Pg.438]    [Pg.440]    [Pg.457]    [Pg.261]    [Pg.298]    [Pg.173]    [Pg.174]    [Pg.97]    [Pg.362]   
See also in sourсe #XX -- [ Pg.33 ]




SEARCH



Dynamic fluorescence quenching, interaction systems

Dynamic system

Dynamical interaction

Dynamical systems

Interacting nanoparticle systems dynamic properties

Interacting nanoparticle systems field dynamics

Interacting system

Interaction system

Skill 16.2 Recognize properties of objects within the solar system and their dynamic interactions

© 2024 chempedia.info