## Search

Now showing items 31-40 of 54

#### Particle Modelling of a Jiggling Gel

(University of Texas at Arlington, 1993)

Computer generated conical gels are constructed using classical
molecular type formulas. Gravity is included in the modeling. Illustrative examples of gel jiggling are described and discussed.
Only workstation capabilities ...

#### Energy States of Two-Electron Systems Via Bohr Determinism

(University of Texas at Arlington, 1983-01)

Correct ground, ionization, and excited states for two-electron systems are deduced deterministically by a direct extension of Bohr's method for hydrogen. The theory incorporates a classical interpretation of electron ...

#### The Energy States of Helium via Bohr-Einstein Determinism

(University of Texas at Arlington, 1984-12)

Correct ground, ionization, singly excited and doubly
(excited energy states are deduced deterministically by a direct
extension of Bohr's method for hydrogen. The theory
incorporates a classical interpretation of ...

#### Analytical and Numerical Studies on the States of Ions and Atoms

(University of Texas at Arlington, 1985)

A speculative model is described which refines and extends the method of Bohr to various atoms and ions which have four or fewer electrons. The results for ground, single, and multiple excited states are of unexpectedly ...

#### Quasi-molecular, Particle Modeling of Crack Generation and Fracture

(University of Texas at Arlington, 1983)

In this paper a new, particle-type approach is developed for the simulation of crack generation and fracture. Rectangular plates
are modeled as particle aggregates and then stressed by using molecular type force formulas. ...

#### Numerical Studies of Double-Layer Circularization and Gastrulation

(University of Texas at Arlington, 1980-08)

In this paper, certain types of biological cell rearrangements are modeled from a computer point of view. All forces are of a local nature and are patterned on classical atomic and molecular interactions. It is first shown ...

#### A New Computer Approach to Atomic and Molecular Dynamics with Application to the Water Molecule

(University of Texas at Arlington, 1981-07)

A new computer oriented theory for atomic and molecular dynamics is developed. In it are incorporated modifications
of classical ideas which are motivated by modern particle theory, especially as it relates to the structure ...

#### Particle Simulation of Biological Sorting on a Supercomputer

(University of Texas at Arlington, 1988)

Cell sorting, or, self reorganization, is modelled by means of particles which obey classical molecular dynamical equations. A system of N second order, nonlinear, ordinary differential equations results when the number ...

#### Particle Simulation in Contact Mechanics of a Bouncing Elastic Ball

(University of Texas at Arlington, 1999-05)

An elastic ball is simulated by considering lumped mass molecular sets called particles. Particles are allowed to interact only locally in a fashion similar to that employed in molecular mechanics. Under local and gravity ...

#### Accurate Quasi-Quantum Mechanical Numerical Methodology

(University of Texas at Arlington, 1990-10)

A quasi-quantum mechanical method in which energy is determined
by quantum mechanics and motion by Newtonian mechanics is
studied by combining it with numerical methodology which
conserves energy exactly at each time ...