Search results for "Equations"

showing 10 items of 955 documents

A Spline Collocation Scheme for the Spherical Shallow Water Equations

1999

Computational MathematicsNumerical AnalysisPhysics and Astronomy (miscellaneous)Spline collocationApplied MathematicsModeling and SimulationScheme (mathematics)Method of linesMathematical analysisNumerical weather predictionShallow water equationsComputer Science ApplicationsMathematicsJournal of Computational Physics
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A numerical treatment of wet/dry zones in well-balanced hybrid schemes for shallow water flow

2012

The flux-limiting technology that leads to hybrid, high resolution shock capturing schemes for homogeneous conservation laws has been successfully adapted to the non-homogeneous case by the second and third authors. In dealing with balance laws, a key issue is that of well-balancing, which can be achieved in a rather systematic way by considering the 'homogeneous form' of the balance law.The application of these techniques to the shallow water system requires also an appropriate numerical treatment for the wetting/drying interfaces that appear initially or as a result of the flow evolution. In this paper we propose a numerical treatment for wet/dry interfaces that is specifically designed f…

Computational MathematicsNumerical AnalysisWaves and shallow waterConservation lawShallow water flowHomogeneousApplied MathematicsFlow (psychology)Key (cryptography)MechanicsShallow water equationsMathematicsShock (mechanics)Applied Numerical Mathematics
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OPKINE, a multipurpose program for kinetics

1991

The program OPKINE is presented for the study of reaction mechanisms and multicomponent analysis in dynamic conditions. This program is written in FORTRAN-77 for IBM 30/90 and VAX 8300 computers, and permits the simultaneous evaluation of both rate constants and initial reagent concentrations or, alternatively, rate constants and sensitivities. Up to 20 kinetic curves, with up to 400 points each, can be treated to evaluate up to 40 parameters. Integration of the system of differential equations is performed by means of the Runge–Kutta–Fehlberg method. OPKINE is provided with the Simplex, and modified versions of the Davidon–Fletcher–Powell and Gauss–Newton–Marquardt optimization methods. A …

Computational MathematicsReaction rate constantSimplexSystem of differential equationsComputer scienceReagentMonte Carlo methodKineticsOptimization methodsApplied mathematicsGeneral ChemistryKinetic energyAlgorithmJournal of Computational Chemistry
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DORA algorithm for network flow models with improved stability and convergence properties

2001

A new methodology for the solution of shallow water equations is applied for the computation of the unsteady-state flow in an urban drainage network. The inertial terms are neglected in the momentum equations and the solution is decoupled into one kinematic and one diffusive component. After a short presentation of the DORA (Double ORder Approximation) methodology in the case of a single open channel, the new methodology is applied to the case of a sewer network. The transition from partial to full section and vice versa is treated without the help of the Preissmann approximation. The algorithm also allows the computation of the diffusive component in the case of vertical topographic discon…

Computer scienceComputationMechanical EngineeringLinear systemSettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaFlow networkOpen-channel flowFlow (mathematics)Convergence (routing)Boundary value problemAlgorithmShallow water equationsWater Science and TechnologyCivil and Structural Engineering
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Tractional Motion Machines: Tangent-Managing Planar Mechanisms as Analog Computers and Educational Artifacts

2012

Concrete and virtual machines play a central role in the both Unconventional Computing (machines as computers) and in Math Education (influence of artifacts on reaching/producing abstract thought). Here we will examine some fallouts in these fields for the Tractional Motion Machines, planar mechanisms based on some devices used to plot the solutions of differential equations by the management of the tangent since the late 17th century.

Computer scienceDifferential equationAnalog computerdifferential equationsTangentMotion (geometry)educational artifactscomputer.software_genrePlot (graphics)planar mechanismslaw.inventiontractional motionPlanarVirtual machinelawComputer graphics (images)Analog computationAnalog computation; tractional motion; planar mechanisms; educational artifacts; differential equationsUnconventional computingcomputerAnalog computation tractional motion planar mechanisms educational artifacts differential equations
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Macroscopic equations of motion for two-phase flow in porous media

1998

The established macroscopic equations of motion for two phase immiscible displacement in porous media are known to be physically incomplete because they do not contain the surface tension and surface areas governing capillary phenomena. Therefore a more general system of macroscopic equations is derived here which incorporates the spatiotemporal variation of interfacial energies. These equations are based on the theory of mixtures in macroscopic continuum mechanics. They include wetting phenomena through surface tensions instead of the traditional use of capillary pressure functions. Relative permeabilities can be identified in this approach which exhibit a complex dependence on the state v…

Condensed Matter - Materials ScienceCapillary pressureMaterials scienceContinuum mechanicsMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesEquations of motionCapillary numberPhysics::Fluid DynamicsSurface tensionCapillary lengthClassical mechanicsCapillary surfaceDisplacement (fluid)Physical Review E
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Fuzzy Control of Uncertain Nonlinear Systems with Numerical Techniques: A Survey

2019

This paper provides an overview of numerical methods in order to solve fuzzy equations (FEs). It focuses on different numerical methodologies to solve FEs, dual fuzzy equations (DFEs), fuzzy differential equations (FDEs) and partial fuzzy differential equations (PFDEs). The solutions which are produced by these equations are taken to be the controllers. This paper also analyzes the existence of the roots of FEs and some important implementation problems. Finally, several examples are reviewed with different methods.

Condensed Matter::Quantum GasesComputer scienceNumerical analysisFuzzy differential equations010103 numerical & computational mathematics02 engineering and technologyFuzzy control system01 natural sciencesFuzzy logicDual (category theory)Nonlinear systemComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION0202 electrical engineering electronic engineering information engineeringApplied mathematics020201 artificial intelligence & image processing0101 mathematics
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Properties of condensed spin-aligned atomic hydrogen from variational calculations

1979

The optimal Jastrow-type ground-state wave function of spin-aligned atomic hydrogen is calculated using the pair potential of Kolos and Wolniewicz. The optimization is performed by solving the Euler equation in the hypernetted chain approximation. Accurate energies as well as pair-distribution functions are obtained. The Bose-Einstein condensate fraction is evaluated from the one-particle momentum distribution. The pair distribution function is also used to obtain stability criteria for the system and minimal values for the aligning magnetic field are calculated at low densities. The resulting values of the minimal aligning fields are considerably higher than those obtained previously.

Condensed Matter::Quantum GasesPhysicsAngular momentumCondensed matter physicsPair distribution functionCondensed Matter PhysicsMolecular physicsAtomic and Molecular Physics and OpticsEuler equationsMomentumsymbols.namesakesymbolsGeneral Materials ScienceSpin (physics)Wave functionPair potentialCritical fieldJournal of Low Temperature Physics
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Collapse in the symmetric Gross–Pitaevskii equation

2004

A generic mechanism of collapse in the Gross–Pitaevskii equation with attractive interparticle interactions is gained by reformulating this equation as Newton's equation of motion for a system of particles with a constraint. 'Quantum pressure' effects give rise to formation of a potential barrier around the emerging singularity, which prevents a fraction of the particles from falling into the singularity. For reasonable initial widths of the condensate, the fraction of collapsing particles for spherically symmetric traps is found to be consistently about 0.7.

Condensed Matter::Quantum GasesPhysicsPhysics and Astronomy (miscellaneous)Equations of motionCollapse (topology)Atomic and Molecular Physics and Opticslaw.inventionGross–Pitaevskii equationSingularityClassical mechanicslawRectangular potential barrierMatter waveWave functionBose–Einstein condensateJournal of Optics B: Quantum and Semiclassical Optics
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Mode coupling approach to the ideal glass transition of molecular liquids: Linear molecules

1997

The mode coupling theory (MCT) for the ideal liquid glass transition, which was worked out for simple liquids mainly by Gotze, Sjogren, and their co-workers, is extended to a molecular liquid of linear and rigid molecules. By use of the projection formalism of Zwanzig and Mori an equation of motion is derived for the correlators S[sub lm,l[sup (prime)]m[sup (prime)]]([bold q],t) of the tensorial one-particle density rho [sub lm]([bold q],t), which contains the orientational degrees of freedom for l(greater-than)0. Application of the mode coupling approximation to the memory kernel results into a closed set of equations for S[sub lm,l[sup (prime)]m[sup (prime)]]([bold q],t), which requires t…

Condensed Matter::Soft Condensed MatterDipoleQuantum mechanicsMode couplingErgodic theoryEquations of motionLinear molecular geometryHard spheresGlass transitionAtomic packing factorMathematicsPhysical Review E
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