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System Methods

It is possible to devise extended-system mediods [79, 82] and constrained-system methods [88] to simulate the constant-A/ r ensemble using MD. The general methodology is similar to that employed for constant-... [Pg.2261]

Size-extensivity is of importance when one wishes to compare several similar systems with different numbers of atoms (i.e., methanol, ethanol, etc.). In all cases, the amount of correlation energy will increase as the number of atoms increases. However, methods that are not size-extensive will give less correlation energy for the larger system when considered in proportion to the number of electrons. Size-extensive methods should be used in order to compare the results of calculations on different-size systems. Methods can be approximately size-extensive. The size-extensivity and size-consistency of various methods are summarized in Table 26.1. [Pg.224]

The Idea/Expression Dichotomy. Copyright protects the expression of ideas, but not ideas themselves. Thus copyright will not protect any procedure, process, system, method of operation, concept, principle, or discovery, regardless of the form in which it is described, explained, illustrated, or embodied (7). [Pg.263]

The multisubstate approach requires initially identifying all important substates, a difficult and expensive operation. In cases of moderate complexity (e.g., a nine-residue protein loop), systematic searching and clustering have been used [39,66]. For larger systems, methods are still being developed. [Pg.194]

The standard requires documented procedures to be prepared consistent with the requirements of this international standard, but what does this mean Preparing procedures consistent with the requirements of the standard means preparing those procedures where the standard requires them. Outside ISO 9001, ISO/TS 16949 does not use the same wording to require procedures. In some clauses it requires a process and in others it requires methods or a methodology or a system. Although systems are not procedures, procedures are not processes and methods are not necessarily procedures, systems, or processes. Some methods, however, will inevitable need one or more procedures. By including systems, methods, and processes, the standard now requires 43 documented procedures directly. [Pg.179]

The aim of heat recovery is to avoid wastage of any quantity of heat or cold energy which has been generated within a system. Methods of recovery may be passive or active. Mechanical heat recovery systems will generally be found under the description of Heat Pumps. [Pg.322]

Mulkerrin, M. G., and Wampler, J. E. (1978). Assaying hydrogen peroxide using the earthworm bioluminescence system. Method. Enzymol. 57 375-381. [Pg.421]

Bai, C., and Elledge, S. J. (1997). Gene identification using the yeast two-hybrid system. Methods Enzymol. 283, 141-156. [Pg.111]

Chong JP, Thommes P, Rowles A, Mahbubani HM, Blow JJ 1997 Characterization of the Xenopus replication licensing system. Methods Enzymol 283 549-564 Dasso M, Newport JW 1990 Completion of DNA replication is monitored by a feedback system that controls the initiation of mitosis in vitro-, studies in Xenopus. Cell 61 811-823... [Pg.229]

Girotti, AW and Korytowski, W, 2000. Cholesterol as a singlet oxygen detector in biological systems. Methods Enzymol 319, 85-100. [Pg.343]

Dutton, P.L. 1978. Redox potentiometry determination of midpoint potentials of oxidation-reduction components of biological electro-transfer systems. Methods in Enzymology 54 411 135. [Pg.233]

Cadenas, F. and Sies, H. (1984). Low-level chemiluminescence as an indicator of singlet molecular oxygen in biological systems. Methods in Enzymology 105 221 231. [Pg.147]

MORPHOLOGY OF SURFACES IN MESOSCOPIC POLYMERS, SURFACTANTS, ELECTRONS, OR REACTION-DIFFUSION SYSTEMS METHODS, SIMULATIONS, AND MEASUREMENTS... [Pg.141]

Morphology of Surfaces in Mesoscopic Polymers, Surfactants, Electrons, or Reaction-Diffusion Systems Methods,... [Pg.570]

The Car-Parrinello method is similar in spirit to the extended system methods [37] for constant temperature [38, 39] or constant pressure dynamics [40], Extensions of the original scheme to the canonical NVT-ensemble, the NPT-ensemble, or to variable cell constant-pressure dynamics [41] are hence in principle straightforward [42, 43]. The treatment of quantum effects on the ionic motion is also easily included in the framework of a path-integral formalism [44-47]. [Pg.13]

Bondy, S.C. (1979). Rapid screening of neurotoxic agents by in vivo means. In Effects of Food and Drugs on the Development and Function of the Nervous System Methods for Predicting Toxicity. Gryder, R.M. and Frankos, VFL, (Eds.) Office of Health Affairs, FDA, Washington, D.C., pp. 133-143. [Pg.760]

In order to describe fully the system, methods for evaluating the activities of the various species in equation (2)... [Pg.229]

J. Singh, S. Pandit, V. W. Bramwell, and H. O. Alpar. Diphtheria toxoid loaded poly-(e-caprolactone) nanoparticles as mucosal vaccine delivery systems. Methods 38 96-105 (2006). [Pg.231]

ISO 4059 1978 Polyethylene (PE) pipes - Pressure drop in mechanical pipe-jointing systems - Method of test and requirements ISO 4427 1996 Polyethylene (PE) pipes for water supply - Specifications ISO 4437 1997 Buried polyethylene (PE) pipes for the supply of gaseous fuels - Metric series - Specifications... [Pg.235]

Theodoulou FL, Miller AJ. 1995. Xenopus oocytes as a heterologous expression system. Methods Mol Biol 49 317. [Pg.340]

Mitchell AD, Myhr BC, Rudd CJ, et al. 1988. Evaluation of the L5178Y mouse lymphoma cell system Methods used and chemicals evaluated. Environ Mol Mutagen 12(Suppl 13) 1-18. [Pg.278]

Takagi, T., Kimura, A., Da, Y. Z., Nakai, H., and Fujiwara, H. Partition coefficients in a liposome/water system. Methods for determination and error analysis, Anal Scl, 8(6) 761-765, 1992. [Pg.1731]

Hatti-Kaul, R. Aqueous Two-Phase Systems Methods and Protocols, Humana Press Totowa, NJ 2000. [Pg.456]

Leitch, C.H.B. Lentz, D.R. 1994. The gresen approach to mass balance constraints of alteration systems methods, pitfalls, examples. In Lentz, D.R., ed) Alteration and Alteration processes associated with Ore-forming systems. Geological Association of Canada, Short Course Notes, 11, 161-192. Lentz, D.R. 1995. Preliminary evaluation of six in-house rock geochemical standards from the Bathurst Camp, New Brunswick. New Brunswick Department of Natural Resources and Energy, Minerals and Energy Division, Miscellaneous Report 18, p. 81-89. [Pg.506]


See other pages where System Methods is mentioned: [Pg.711]    [Pg.2242]    [Pg.400]    [Pg.400]    [Pg.403]    [Pg.141]    [Pg.62]    [Pg.47]    [Pg.297]    [Pg.145]    [Pg.26]    [Pg.136]    [Pg.299]    [Pg.13]    [Pg.256]    [Pg.44]    [Pg.244]    [Pg.9]    [Pg.247]    [Pg.35]    [Pg.134]    [Pg.156]   


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2 kinetic analysis method model system complexity

30 Containment systems Deterministic method

Active protection systems application methods

Algebraic Design Method for Dilute Systems

Alternative methods to reduce the relief system size

Alternative relief system sizing methods for tempered hybrid systems

Analytical methods system suitability test

Application of ILDM Methods in Reaction Diffusion Systems

Applications of Spin Labeling Method to Biopolymer Systems

Automated Method Development System software

Basis for oil production system by thermal EOR methods

Biological methods systems

Biological systems analytical methods

Biomedical systems analytical methods

Brillouin-Wigner methods for many-body systems

Cation-pool method system

Central nervous system -specific detection methods

Ceramic method flow system

Chemical methods early warning systems

Colloidal systems characterization methods

Communication systems, method transfer

Communication systems, method transfer process

Complex systems stochastic optimization methods

Computational methods biochemical systems theory

Computational methods complex system dynamics

Computer methods expert system

Computer systems, identification method

Conjugate Gradient method linear algebraic systems

Convective systems hydrodynamic methods

Convergence methods systems

Coupled cluster method systems

Crystal orbital method, systems with

DFT Methods Benchmarking against Systems with Transition Metal Species

Data system methods

Design methods for binary systems

Diffraction methods crystal systems

Disposal methods system design

Distillation binary systems, design methods

Distillation method separation system

Drug bioavailability improvement, methods system

Electronic structure methods periodic systems

Elimination methods for solving linear systems

Experimental Systems and Methods

Expression systems labeling methods

Extended system method

Extrusion systems delivery methods

Fast Chemical Reactions in Liquid-solid Systems (Condensation Method of Suspension Synthesis)

Feed systems test methods

Final method system suitability testing

Fire suppression methods systems

Flux-difference methods, homogeneous systems

Force field methods conjugated systems

General Energy Saving Methods in the Plant Systems

Genetically Modified Systems and Other Methods for the Production of PHA

Genetically Modified Systems and other Methods for the Production of Polyhydroxyalkanoates

Graphical Design Methods for Dilute Systems

Graphical and Shortcut Methods Binary Systems

HYBRID METHODS OF MODELING COMPLEX MOLECULAR SYSTEMS

Hamiltonian dynamical systems standard method

Hartree-Fock LCAO Method for Periodic Systems

Huffs method for vapour pressure systems

Illumination systems Image analysis methods

Isotopic methods groundwater-lake systems

Iterative methods to solve the linear system

Kinetic studies, experimental methods flow systems

Kohn-Sham LCAO Method for Periodic Systems

Laboratory Information Management System analytical methods

Laboratory quality systems analytical methods

Large linear system solution, with iterative methods

Layered systems, analytical methods

Leungs method for gassy systems

Linear System Solution with Iterative Methods

Linear systems approach methods

Lumping methods discrete systems

Method development defining system suitability

Method development instrument/system considerations

Methods and Tools for Identification of Physiologic Systems asilis Z. Marmarelis

Methods for Binary Systems

Methods for the System Analysis

Methods management system

Methods model systems

Mixed quantum-classical methods large systems

Molecular models, polymeric systems, Monte Carlo methods

Moment methods for inhomogeneous systems

Monte Carlo simulation methods systems

Multicomponent systems rigorous solution procedures (computer methods)

Multidimensional systems semiclassical method

Nickel-lead system, application method

Nonlinear algebraic systems method)

Numerical Methods for Extended System Thermostats

Numerical Methods for Reactor Systems Design

Organic livestock husbandry methods and the microbiological safety of ruminant production systems

Outlook on Electron Correlation Methods for Large Systems

PART 2 ENERGY SYSTEM ASSESSMENT METHODS

Permeability Methods for Characterizing the Fineness of a Powder System

Perturbation method three-orbital systems

Physical Parameters Special Methods Model Systems

Physical Systems Why Do We Need Multiscale Methods

Polyatomic systems method

Potential sweep methods reversible systems

Quaternary system method

Relativistic LCAO Methods for Periodic Systems

Relativistic methods for large systems

Relativistic methods many-particle systems

Relaxation methods three-phase systems

Rote Method for Simple Systems

STATE-SPACE METHODS FOR CONTROL SYSTEM DESIGN

SYSTEMS FRAMEWORK METHOD

Safety systems/method statements

Sample introduction systems electrothermal methods

Sample introduction systems laser ablation method

Semiempirical LCAO Methods for Molecules and Periodic Systems

Separation systems synthesis method

Shutdown systems analysis method

Side arm method. Steady state static system

Sizing method for top venting of gassy systems

Solution Methods for Linear Algebraic Systems

Stability Methods in Non-stationary Systems

Surveillance methods/system

Sustainable agriculture system methods

Symmetry Exploitation in Local MP2 Method for Periodic Systems

Synthetic methods systems

System Grounding Methods

System boundary method

System component method

System development steps develop methods

System modular method

System of Plane-Parallel Layers Matrix Method

System of implicit non-linear equations the Newton-Raphson method

System volume method

Systems Rigorous Solution Procedures (Computer Methods)

Systems and Methods

Test methods stressing systems

The Phase Rule—a Method of Classifying All Systems in Equilibrium

The Runge-Kutta method for a system of differential equations

The Spin-Free Valence Bond Method Applications to Metallic and Electron Rich Systems

The combination of methods for two-phase systems

Time Lag Method and D1-D8 System

Transport systems, method transfer process

Turbidity spectrum method for the characterization of ill-defined disperse systems

Visualization Methods and Systems

Wildays method including disengagement for vapour pressure systems

Wildays step-wise method for vapour pressure systems

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