Refractive is a software that calculates the refractive index of the major transparent materials in accordance to wavelength. Refractive is conceived for Optical design engineers as well as students interested in optics. Characteristics :- Calculation of the refractive index according to wavelength;- Calculation of lights transmission angles;- Reflection and transmission coefficients for the two materials in accordance to the angle of incidence;- Calculation of the critical angle and Brewsters angle,;- Recall of the major refraction formulas;- Possibility to define personalized materials.

Refractive alternatives

Loughborough Wave Lab

Loughborough Wave Lab is an educational learning app designed to aid students in their understanding of electromagnetic wave concepts in an engaging and entertaining way Features include: Virtual pond Persistent Sinusoidal Pulses Virtual Ripple Tank Waveguide Simulator Youngs Double Slit Experiment Custom Simulation ModeLoughborough Wave Lab is intended to accompany teaching on Electromagnetic phenomena and to provide students with an interactive way of seeing these principles in action Educators can now author their own custom simulation files, upload them to a web server and then have Loughborough Wave Lab execute the simulations using a WiFi or cellular data connection to download the configurations and display them to the user. This uses the new, open-source configuration standard CEML which has been introduced by the developer (available at www.github.com/danielrbrowne/CEML)

  • size 16.9 MB

Physics Bites! - Lenses

The purpose of Physics Bites is to give the user a chance to better understand certain concepts in physics by playing with tiny simulations (or Bites). Each Bite allows the user to change several parameters but is designed to be simple enough to not overwhelm the user with controls.Lenses is the first Physics Bites module, with simulations illustrating different aspects of lenses.

  • size 2.7 MB

Ripple Tank Lite

A simulation of a ripple tank, or wave tank. Make waves with your finger, or view examples including such wave phenomena as interference, diffraction (single slit, double slit, etc. It is also optimized for iPad.

  • size 1.6 MB

Physics to Go! Part 1

Physics to Go Part 1 Interactive Quantum MechanicsThese are the basic controls of the app:home page - set the range of the x-value for which the Schrdinger equation is calculated (box size) with xmin, xmax set basic step size for the time evolution set the number of points of the wave function to be calculated. A larger number slows down the calculation and uses up more memory, but can increase the accuracy of the calculation. Enjoy the app

  • size 13.0 MB

Insensitive

Insensitive simulates the quantum mechanical models that are used to describe the nuclear magnetic resonance (NMR) experiment. The vector model, density matrix and product operators of an ensemble of up to four spins-1/2 and two spin types are visualized. If you like the app and would like to support its development, please consider buying my app Song Quiz.

  • size 35.4 MB