Introduction to Labview Quantum Mechanics 16 Spectroscopy
Let's dive into the details surrounding Labview Quantum Mechanics 16 Spectroscopy. In this video I calculate the optical transition wavelengths and intensities for optical transitions in a box and an atom.
Labview Quantum Mechanics 16 Spectroscopy Comprehensive Overview
This video describes how to program buttons that generate a square wave through a superposition of sine waves, as well as how ... In this video I write a program to solve Schrodinger's equation for a 1 electron, one dimensional molecule over a range of ... This video describes how to write a program that generates a series of evenly spaced numbers between a defined minimum and ...
In this video I describe how to write a program to load time/amplitude data from a text file and then calculate the frequency ...
Summary & Highlights for Labview Quantum Mechanics 16 Spectroscopy
- In this video I describe how to solve Schrodinger's equation for a 1 electron molecule (in 1 dimension).
- In this video I solve Schrodinger's equation for the hydrogenic (one electron) atom potential.
- This video describes how to write a program to simulate a wave as a function of space, at a particular time.
- Reference OmniDriver &
- This video describes how to create and use subVIs to generate modular code.
That wraps up our extensive overview of Labview Quantum Mechanics 16 Spectroscopy.