I heard hot water freeze faster when thrown in freezing cold air, because it evaporates faster - making smaller droplets and increasing the surface area
We did an experiment in university where we cooled distilled water, which was completely still.
We managed to get the temperature down to -7C I think before it froze. It quickly rose to 0C when it started freezing. kinda cool.
I’ve seen youtubers repeat the experiment, think it’s called supercooling. It also causes longer time to freezing, and was one of many theories for the Mpemba effect
It requires very specific circumstances. Given the same ambient temperature hot water will cool at a faster rate than cooler water because of the greater temperature differential.
Hot water will lose more mass as more will evaporate as it cools.
I will believe that warm water freezes faster only if I see it with my own eyes. It just goes against everything I know about thermodynamics.
I heard hot water freeze faster when thrown in freezing cold air, because it evaporates faster - making smaller droplets and increasing the surface area
Right, I can believe that. I was thinking of making ice cubes, which is also something I heard.
This is actually a thing, it’s called the Mpemba effect. It’s hella weird (that’s the scientific term), but can be reproduced in experiments.
We did an experiment in university where we cooled distilled water, which was completely still. We managed to get the temperature down to -7C I think before it froze. It quickly rose to 0C when it started freezing. kinda cool.
I’ve seen youtubers repeat the experiment, think it’s called supercooling. It also causes longer time to freezing, and was one of many theories for the Mpemba effect
It requires very specific circumstances. Given the same ambient temperature hot water will cool at a faster rate than cooler water because of the greater temperature differential.
Hot water will lose more mass as more will evaporate as it cools.
https://en.m.wikipedia.org/wiki/Mpemba_effect
It’s one of those “wacky” physics facts.