The purpose of this program is to plot the waveforms of the hydrogen wave function. The program has 4 option's. First, plotting the radial function, second, plotting the radial probability, third, 2d wave function,last, 3d wave function.
IFEFFIT is a library and set of interactive programs for the analysis of x-ray absorption fine-structure (XAFS) data. IFEFFIT combines state-of-the-art analysis algorithms with graphical display of XAFS data, and general data manipulation. It can be
IRBEM-LIB provides routines to compute magnetic coordinates for any location in the Earth's magnetic field, to perform coordinate conversions, to evaluate geophysics/space-physics models, and to propagate orbits in time.
Herramientas informáticas para auxiliar en el proceso de identificación de parámetros dinámicos en sistemas estructurales. Desde el pre procesamiento hasta la elección y ratificación de modos.
Build custom robots in your browser with IncrediBots! Design your robot by drawing shapes, joints, motors, and more! Then, pilot your machine using your own custom key bindings. NOTE: OPEN SOURCE VERSION CAN BE DOWNLOADED FROM "FILES" TAB!
Demonstrates quantal two-slit Fresnel interference patterns.
InterferenceSimulator is a program demonstrating quantal two-slit Fresnel interference patterns with one, the other, or both slits open. A magnetic flux situated between the two slits allows demonstration of the Aharonov–Bohm effect. Simulations with short de Broglie wavelengths illustrate the classical limit of quantum mechanics. Because of the universality of wave phenomena, this program can also demonstrate the geometrical-optics limit of wave optics for small wavelengths.
*Project home now moved to Google Code.* Numerical computing and plotting tools for IronPython.
A Java based tuning tool for the FreeEMS engine management system.
JNewton is a Java wrapper for the Newton Dynamics Physics library. It is designed to be simple and lightweight for use in any Java program.
An optical ray tracing program
An optical ray tracing program focused on layout of prototype instrumentation and learning about optics.
The project's aim is to develop interactive Java applets that simulate and visualize quantum mechanics. The 1d time-independent, radial time-independent and 1d time-dependent Schrödinger equations are solved so far. More will follow...
Data logging and visualization in 2D and 3D for STMs.
This is a project we - ten students, 16 to 18 years old, and one teacher - are currently working on in the so called "Physik-Projektkurs" at school in which we build and program our own scanning tunneling microscope. This software is designed for DAQ systems by BMCM (we use the USB-AD16F), but it should not be too difficult to adapt it to foreign systems.It currently supports resolutions up to 1024x1024, visualization in 2D and 3D using colors from predefined gradients, export to PNG, CSV, OBJ and more! Requires at least .Net Framework 4.0, DirectX 9, optional: BMCM driver for your DAQ system
FPlot is a windows programm and a .NET library to plot and fit mathematical functions and data. The core concept of FPlot is that functions are entered as C# code and compiled on the fly. Thus the software is very fast and extensible.
Simulation-Application for the Lennard-Jones-12-6-Potential using Python and OpenGL.
Data Processing and Analysis for X-ray Spectroscopy and More
Larch is a scientific data processing language that is designed to be easy to use for novices and complete enough for advanced data processing and analysis. Larch provides a wide range of functionality for dealing with arrays of scientific data, and basic tools to make it easy to use and organize complex data. Larch has been primarily developed for dealing with x-ray spectroscopic and scattering data, especially the kind of data collected at modern synchrotrons and x-ray sources. Larch is written in Python and relies heavily on the standard tools for scientific computing with Python (numpy, scipy, matplotlib, and h5py).
Please use the MOHID code official site http://mohid.codeplex.com/, Thank you, The MOHID team
The Mobile Autonomous Robot Simulation Framework assists in building the applications to simulate an Autonomous Mobile Robot, its interaction with the environment, behaviors and also its sensors, actuators and locomotion mechanism.
MDSplus is a scientific data system used primarily in fusion energy research.
Magneticle is a 3D OpenGL physical simulation that applies the Biot-Savart law to charged particles operating inside a magnetic field produced by a current-carrying wire modeled as an arbitrary space curve.
Mechanicus is a race simulator between player-constructed vehicles. This project is effectively abandoned.
This Meshula Kernel contains a reactive AI core, a high quality physics simulator, a math library, and assorted utility routines
MesoRD is a stochastic and deterministic simulator of coupled chemical reactions and diffusions in space.
MieConScat is a GUI/Console program for generating MIE SCATtering data as a table of cross sections. It can generate scattering cross sections over specified angular ranges and total absorption cross sections. It was initially developed to aid work with optical particle counters (OPC) especially when CONverting data between cross section and diameter space. These methods are described in Rosenberg et al. 2012, Particle sizing calibration with refractive index correction for light scattering optical particle counters and impacts upon PCASP and CDP data collected during the Fennec campaign and CDP data collected during the Fennec campaign, http://www.atmos-meas-tech.net/5/1147/2012/amt-5-1147-2012.html
Simulate the optical reflectance from an infinite turbid medium under an ideal oblique incidence optical source. Two versions are implemented: CPU and GPU. They both generate statistically the same results but GPU version works much faster.
MCX - GPU-accelerated 3D Photon Transport Simulator
MCX is a Monte Carlo simulation software for static or time-resolved photon transport in 3D media. It uses GPU-based massively parallel computing techniques and is extremely fast compared to the traditional single-threaded CPU-based simulations.