this post was submitted on 23 Dec 2023
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[–] [email protected] 1 points 10 months ago (1 children)

From the article (which you clearly either didn't read or didn't understand):

"Temperature, however, relates not only to kinetic energy, but to the total energy of the particles, which in this case includes interaction and potential energy."

 “The inverted Boltzmann distribution is the hallmark of negative absolute temperature; and this is what we have achieved,” says Ulrich Schneider. “Yet the gas is not colder than zero kelvin, but hotter,” as the physicist explains: “It is even hotter than at any positive temperature – the temperature scale simply does not end at infinity, but jumps to negative values instead.”

"At first sight it may sound strange that a negative absolute temperature is hotter than a positive one. This is simply a consequence of the historic definition of absolute temperature, however; if it were defined differently, this apparent contradiction would not exist."

"Temperature, however, relates not only to kinetic energy, but to the total energy of the particles, which in this case includes interaction and potential energy. The system of the Munich and Garching researchers also sets a limit to both of these. The physicists then take the atoms to this upper boundary of the total energy – thus realising a negative temperature, at minus a few billionths of a kelvin."

Again, very sure of yourself for being so incredibly incorrect...

[–] [email protected] 1 points 10 months ago

Lmao you are the one who is actually tangibly misunderstanding the article. It clearly states that temperature RELATES to all forms of energy, which is true, but temperature is not directly affected by potential energy. Potential energy can, for example, raise the boiling point of a substance, but it does not actually change the temperature directly.

Since you clearly need a refresher on the fundamentals of heat and temperature:

https://www.houstonisd.org/cms/lib2/TX01001591/Centricity/Domain/5364/Thermal%20Energy.pdf