Search results for "Maxwell–Boltzmann distribution"

showing 7 items of 7 documents

Monte Carlo Simulation of a Modified Chi Distribution with Unequal Variances in the Generating Gaussians. A Discrete Methodology to Study Collective …

2020

The Chi distribution is a continuous probability distribution of a random variable obtained from the positive square root of the sum of k squared variables, each coming from a standard Normal distribution (mean = 0 and variance = 1). The variable k indicates the degrees of freedom. The usual expression for the Chi distribution can be generalised to include a parameter which is the variance (which can take any value) of the generating Gaussians. For instance, for k = 3, we have the case of the Maxwell-Boltzmann (MB) distribution of the particle velocities in the Ideal Gas model of Physics. In this work, we analyse the case of unequal variances in the generating Gaussians whose distribution w…

Distribution (number theory)Chi distributionKeywords: Chi distributionGeneral MathematicsMonte Carlo methodDegrees of freedom (statistics)050109 social psychology02 engineering and technologyMaxwell-Boltzmann distributionNormal distributionsymbols.namesake0202 electrical engineering electronic engineering information engineeringComputer Science (miscellaneous)0501 psychology and cognitive sciencesdiscrete modelStatistical physicsEngineering (miscellaneous)lcsh:Mathematics05 social sciencesVariance (accounting)lcsh:QA1-939Maxwell–Boltzmann distributionPsicologiasymbolsreaction times020201 artificial intelligence & image processingRandom variable
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Percentile Study of chi Distribution. Application to Response Time Data.

2020

As a continuation of our previous work, where a Maxwell&ndash

PercentileChi distributionResponse timesGeneral MathematicsProbability density functionMaxwell-Boltzmann distributionsymbols.namesakeContinuationStatisticsComputer Science (miscellaneous)Maxwell–Boltzmann distributionEngineering (miscellaneous)lcsh:MathematicsVariance (accounting)Ideal gas modelPhysics::Classical Physicslcsh:QA1-939Maxwell–Boltzmann distributionIdeal gasChi distributionDistribution (mathematics)FISICA APLICADAsymbolsχ distributionTemps Aspectes psicològicsMATEMATICA APLICADAideal gas modelresponse times
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An inquiry-based approach to Maxwell distribution: a case study with engineering students

2013

The concept of distribution is a fundamental component of statistical thinking. This paper describes a teaching approach for it that uses a specific activity related to the field of statistical mechanics. The concept of the velocity distribution of a particle system is dealt with using an inquiry-based approach involving an experimental examination of Maxwell’s distribution. Some outcomes of a teaching experiment held at the Faculty of Engineering of the University of Palermo, Italy are described.

PhysicsDistribution (number theory)Research in physics education Teaching methods and strategies Laboratory experiments and apparatus Laboratory course design organization and evaluationClassical statistical mechanicsSettore FIS/08 - Didattica E Storia Della Fisica05 social sciences050301 educationGeneral Physics and AstronomyStatistical mechanics01 natural sciencesMaxwell–Boltzmann distributionField (geography)symbols.namesakeTheoretical physicsStatistical thinkingComponent (UML)0103 physical sciencessymbolsMathematics education010306 general physics0503 educationEuropean Journal of Physics
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Radiative recombination in a strong laser field: low-frequency approximation

2005

A theoretical treatment of the laser-assisted radiative recombination (LARR) is presented in which the low-frequency (LF) assumption is exploited. The merit of the proposed LF approximation is twofold. First, the LF approximation considerably simplifies the calculations of the transition rates, whereas the results obtained within this approximation are only slightly different from those obtained without resorting to it. Second, the LF approximation gives more insight into the physical picture of the process, which may be viewed as a two-step process. In the first step, the free electron propagates toward the ion, and its motion is described classically with motion changes ascribed mainly to…

PhysicsFree electron modelStatistical and Nonlinear PhysicsObservableOptical fieldMaxwell–Boltzmann distributionAtomic and Molecular Physics and OpticsComputational physicssymbols.namesakeDistribution functionIonizationElectric fieldsymbolsHigh harmonic generationAtomic physicsJournal of the Optical Society of America B
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An experiment on the velocity distribution of thermionic electrons

2010

This paper describes an undergraduate experiment that yields the velocity distribution of thermionic electrons by analyzing the I-V characteristics of diodes and triodes. The experiment allows students to focus on the distribution function more than on difficulties arising from the complexity of thermionic emission. By using a simple model, the velocity distribution of thermionic electrons emitted by the vacuum tube cathode can be described by Maxwell’s distribution.

PhysicsPhysics::Instrumentation and DetectorsSettore FIS/08 - Didattica E Storia Della FisicaVacuum tubeGeneral Physics and AstronomyThermionic emissionElectronThermionic emissionMaxwell–Boltzmann distributionCathodeComputational physicslaw.inventionsymbols.namesakeDistribution functionClassical mechanicsMaxwell distributionTriodelawsymbolsPhysics::Accelerator PhysicsDiodeAmerican Journal of Physics
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On the existence of kinetic equations

1974

The existence of the Boltzmann equation and its generalizations is studied by analysing the order of magnitude of their terms. As a consequence we conclude that the reduced distribution functions are not analytic in the density.

Physicssymbols.namesakeDifferential equationLattice Boltzmann methodssymbolsStatistical mechanicsPoisson–Boltzmann equationPlasma modelingBoltzmann equationMaxwell–Boltzmann distributionBoltzmann distributionMathematical physicsIl Nuovo Cimento B Series 11
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Criteria for validity of thermodynamic equations from non-equilibrium molecular dynamics simulations

2008

Abstract The assumption of local equilibrium is validated in four different systems where heat and mass are transported. Mass fluxes up to 13 kmol / m 2 s and temperature gradients up to 10 12 K / m were used. A two-component mixture, two vapor–liquid interfaces, a chemical reaction in a temperature gradient and gas adsorbed in zeolite were studied using non-equilibrium molecular dynamics simulations. In all cases, we verified that thermodynamic variables obeyed normal thermodynamic relations, with an accuracy better than 5%. The heat and mass fluxes, and the reaction rate were linearly related to the driving forces. Onsager's reciprocal relations were validated for two systems. Equipartiti…

Thermodynamic stateThermodynamic equilibriumChemistryMechanical EngineeringThermodynamicsBuilding and ConstructionThermodynamic equationsPollutionThermodynamic systemMaxwell–Boltzmann distributionBoltzmann equationIndustrial and Manufacturing EngineeringThermodynamic squaresymbols.namesakeGeneral EnergysymbolsElectrical and Electronic EngineeringCivil and Structural EngineeringThermodynamic processEnergy
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