How hot would it have to be?

  • towerful@programming.dev
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    8 months ago

    Actually, it doesnt exist.
    Previous experiments accounted for evaporation by using sealed containers, and still observed mpemba phenominon.

    A recent-ish study managed to control factors for all the proposed reasons of the mpemba phenominon, and found no difference between freezing cold and hot water.
    They found the location of the temperature probe to be more of a factor than anything else.
    https://youtu.be/SkH2iX0rx8U

    Essentially, any observations of this can be accounted for by margins of error.
    So in isolation, hot water does not freeze faster than cold water.
    Any observation of this are from environmental effects (extra nucleation sites in the water, different freezing conditions etc).
    So the laws of thermodynamics still hold.
    However, what these environmental factors are and how they contribute arent yet understood.

    • Brokkr@lemmy.world
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      8 months ago

      Thanks for the video. As it notes, the observations are real, but the explanation may not be known.

      However, preventing the evaporation and then finding that the process does not occur kind of proves the evaporation theory, so I’m not sure that point works the way that you or Derek claim it does, unless I’m misunderstanding.

      Lastly, I’m not claiming nor do I believe that there is some mystical way of violating the laws of thermo. I’m claiming that when the mass of water is reduced that the total latent heat is also reduced; that is completely consistent with thermo.

    • Wwwbdd@lemmy.world
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      8 months ago

      That’s what I’m talking about! That’s for digging that up. It just never passed the smell test for me, I always called bs