this post was submitted on 22 Jun 2025
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Science Memes

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Ask the crickets (europe.pub)
submitted 22 hours ago by fossilesque@mander.xyz to c/science_memes@mander.xyz
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[–] Macallan@lemmy.world 1 points 8 hours ago (2 children)

I think the brine probably froze at 0° F, which ended up correlating to 32° F for regular water. And the body temperature at 100° F ended up correlating to 212° F for water to boil. That's the way I understand it anyway.

[–] HollowNaught@lemmy.world 3 points 7 hours ago

Fahrenheit temperature scale, scale based on 32° for the freezing point of water and 212° for the boiling point of water, the interval between the two being divided into 180 equal parts. The 18th-century physicist Daniel Gabriel Fahrenheit originally took as the zero of his scale the temperature of an equal ice-salt mixture and selected the values of 30° and 90° for the freezing point of water and normal body temperature, respectively; these later were revised to 32° and 96°, but the final scale required an adjustment to 98.6° for the latter value.

[–] echodot@feddit.uk 2 points 6 hours ago (1 children)

What the hell was the brine that it required it to be 32° below the freezing point of water? Even salt water would have frozen by that point.

[–] Macallan@lemmy.world 3 points 5 hours ago

Far fewer people know that 0° and 100° in Fahrenheit also correspond to specific real-world values. 0°F corresponds to a temperature where a brine is made of equal parts ice, water, and ammonium chloride. Such a brine, interestingly, is a frigorific mixture, meaning that it stabilizes to a specific temperature regardless of the temperature that each component started at. Thus, it makes for a really nice laboratory-stable definition of a temperature. Similarly, 100°F was initially set at "blood heat" temperature, or the human body temperature. While not super precise, it was a fairly stable value. As good as anything in the early 1700s.

Source from a quick Google search: https://gregable.com/2014/06/temperature-scales.html