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Autori principali: Brownridge, James D., Zinet, Matthieu, Sotta, Paul, Ganachaud, Francois
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.18820
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author Brownridge, James D.
Zinet, Matthieu
Sotta, Paul
Ganachaud, Francois
author_facet Brownridge, James D.
Zinet, Matthieu
Sotta, Paul
Ganachaud, Francois
contents Water exhibits many unique properties compared to other liquids, with some of these explained and others remaining enigmatic. Among them, it was proposed and extensively debated that hot water would freeze faster than cold water. Numerous studies have demonstrated the difficulty of successfully elucidating this effect, making explanations surrounding this phenomenon highly controversial. Here, we demonstrate that when two cups filled with cold and hot water are introduced simultaneously in a freezer saturated with ice-nucleating agents, the hot sample freezes faster and to a greater depth than the cold sample, particularly when the initial temperature difference is high. On the other hand, against some previous beliefs, the time to onset of crystallization is always and logically retarded for hotter samples. Under these conditions, where supercooling is eliminated and temperature recording is precisely controlled, robust experiments follow the same trend,regardless of whether hot versus room temperature (RT) samples or RT versus cold samples are tested.
format Preprint
id arxiv_https___arxiv_org_abs_2503_18820
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Unraveling Specific Conditions for a Repeatable Mpemba Effect
Brownridge, James D.
Zinet, Matthieu
Sotta, Paul
Ganachaud, Francois
Chemical Physics
Water exhibits many unique properties compared to other liquids, with some of these explained and others remaining enigmatic. Among them, it was proposed and extensively debated that hot water would freeze faster than cold water. Numerous studies have demonstrated the difficulty of successfully elucidating this effect, making explanations surrounding this phenomenon highly controversial. Here, we demonstrate that when two cups filled with cold and hot water are introduced simultaneously in a freezer saturated with ice-nucleating agents, the hot sample freezes faster and to a greater depth than the cold sample, particularly when the initial temperature difference is high. On the other hand, against some previous beliefs, the time to onset of crystallization is always and logically retarded for hotter samples. Under these conditions, where supercooling is eliminated and temperature recording is precisely controlled, robust experiments follow the same trend,regardless of whether hot versus room temperature (RT) samples or RT versus cold samples are tested.
title Unraveling Specific Conditions for a Repeatable Mpemba Effect
topic Chemical Physics
url https://arxiv.org/abs/2503.18820