Exploring Chemistry in Four Dimensions
The article discusses the concept of chemistry in four-dimensional space, exploring various theoretical aspects and implications. It highlights the challenges of simulating chemical behavior in this imaginary space and the differences from traditional three-dimensional chemistry. The author also touches on specific topics such as the Schrödinger Equation and the behavior of magnetism in four dimensions.
- ▪The article explores the theoretical implications of chemistry in a four-dimensional space.
- ▪It discusses the challenges of simulating chemical behavior compared to traditional three-dimensional chemistry.
- ▪Key topics include the Schrödinger Equation and the unique behavior of magnetism in four dimensions.
Opening excerpt (first ~120 words) tap to expand
Exploring Chemistry in Four Dimensions Simulations and speculations on what chemistry would be like in 4D space. The term “4D” gets abused a lot, but in this case I mean literally 4D, an imaginary sort of space in which sets of four mutually perpendicular directions can exist. I’d suggest starting reading in chronological order, because there are some dependencies between the posts. Correction: Yukawa Potential TL;DR: The S force should have a potential of the form , where is a modified Bessel function of the second kind, not as I previously thought. I will be correcting the existing posts to account for this eventually, but it will take a while.
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Excerpt limited to ~120 words for fair-use compliance. The full article is at 4denthusiast.
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