I am trying to create a realistic audio equivalent sound model of various elements dropped 40 octaves. I have done this without quantization on my spectraphonic Periodic Table of the elements, but in this stage I want to realistically render solitary atoms of each element audibly. I wish assistance/ideas surrounding optimal representational strategies.
You can't really quantize water in that way.
The best place for information on the Polaroid Spectra cameras is camerapedia.org.
Spectra is very hard to find. She is retired now, so your best bet is to get her online.
quantise (English) quantize (Us English)
In music, "quantize" refers to the process of aligning notes or beats to a specific grid or rhythm, often done electronically to correct timing errors or create a more precise and consistent sound.
She Does'nt have one . Everyone likes her!
The Sun spectra is considered continuous.
There are three main types of infrared spectra: absorption spectra, emission spectra, and reflection spectra. Absorption spectra are produced when a material absorbs infrared energy, emission spectra are produced when a material emits infrared radiation, and reflection spectra result from the reflection of infrared radiation off a material.
The nucleus of an atom does not directly affect the atomic spectra of different elements. The atomic spectra are mainly a result of the electron configuration and transitions in the electron energy levels. However, the nucleus can indirectly influence the spectra through its impact on the arrangement and energy levels of the electrons.
Its always counterclockwise. isn't it?
Best guess would be the Sadtler spectra; no idea what the number would be.
There is no code for spectra