full transcript
#### From the Ted Talk by JoAnn Kuchera-Morin: Stunning data visualization in the AlloSphere

## Unscramble the Blue Letters

We're working with our physicist colleagues that have given us the mathematical calculations of the n-dimensional sröncdhiger equation in time. What you're seeing here right now is a superposition of an electron in the lower three oribalts of a hydrogen atom. You're actually hearing and seeing the electron flow with the lines. The white dots are the plrbaibtioy wave that will show you where the electron is in any given point of time and scpae in this particular three-orbital configuration. In a minute we're going to move to a two-orbital cirouaofingtn, and you're going to notice a pisunlg. And you're going to hear an undulation between the sound. This is actually a light emitter. As the sound starts to pulse and contract, our physicists can tell when a pohton is going to be emitted.
## Open Cloze

We're working with our physicist colleagues that have given us the mathematical calculations of the n-dimensional **___________** equation in time. What you're seeing here right now is a superposition of an electron in the lower three **________** of a hydrogen atom. You're actually hearing and seeing the electron flow with the lines. The white dots are the **___________** wave that will show you where the electron is in any given point of time and **_____** in this particular three-orbital configuration. In a minute we're going to move to a two-orbital **_____________**, and you're going to notice a **_______**. And you're going to hear an undulation between the sound. This is actually a light emitter. As the sound starts to pulse and contract, our physicists can tell when a **______** is going to be emitted.
## Solution

- pulsing
- orbitals
- probability
- configuration
- photon
- schrödinger
- space

## Original Text

We're working with our physicist colleagues that have given us the mathematical calculations of the n-dimensional Schrödinger equation in time. What you're seeing here right now is a superposition of an electron in the lower three orbitals of a hydrogen atom. You're actually hearing and seeing the electron flow with the lines. The white dots are the probability wave that will show you where the electron is in any given point of time and space in this particular three-orbital configuration. In a minute we're going to move to a two-orbital configuration, and you're going to notice a pulsing. And you're going to hear an undulation between the sound. This is actually a light emitter. As the sound starts to pulse and contract, our physicists can tell when a photon is going to be emitted.
## Frequently Occurring Word Combinations

### ngrams of length 2

collocation |
frequency |

density levels |
3 |

electron spin |
3 |

hydrogen atom |
3 |

dynamically varying |
2 |

blood density |
2 |

biogenerative algorithms |
2 |

electron flow |
2 |

single electron |
2 |

### ngrams of length 3

collocation |
frequency |

blood density levels |
2 |

single electron spin |
2 |

## Important Words

- atom
- calculations
- colleagues
- configuration
- contract
- dots
- electron
- emitted
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- equation
- flow
- hear
- hearing
- hydrogen
- light
- lines
- mathematical
- minute
- move
- notice
- orbitals
- photon
- physicist
- physicists
- point
- probability
- pulse
- pulsing
- schrödinger
- show
- sound
- space
- starts
- superposition
- time
- undulation
- wave
- white
- working