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  • Greetings fellow nerds.

  • In this video I'm going to put liquid nitrogen on my hand.

  • I'm not crazy.

  • To show you why I'm not crazy I'm going to first show something called the Leidenfrost effect.

  • I have here a standard laboratory heater plate and I'm going to put some water on it and turn on the heat.

  • As expected, it's going to boil. As it heats up it will boil water faster and faster.

  • Eventually it gets so hot that water instantly vaporizes upon hitting the plate.

  • Now when it gets really hot, an interesting effect takes over.

  • Water now just beads up and rolls off the plate.

  • What's happening is that on contact the water vaporizes so fast that it creates a cushion of steam

  • that lifts up the remaining water drop.

  • So the water is now riding around on a cushion of it's own steam.

  • This makes the water last longer and slows down the heat conduction needed to completely vaporize it.

  • This is called the Leidenfrost effect.

  • This effect can be seen at home with a frying pan if you heat it high enough.

  • The Leidenfrost effect also occurs with liquid nitrogen.

  • As you can see here the liquid nitrogen skirts away

  • as I pour it on the floor without actually soaking into the floor.

  • Liquid nitrogen boils at -196 Celsius.

  • And this laboratory floor is at room temperature.

  • So from the liquid nitrogen's perspective the floor is super hot.

  • Here are some drops of liquid nitrogen rolling around on the floor just like the water on the hot plate.

  • As you can see they're not soaking in.

  • The Leidenfrost effect protects the liquid nitrogen from being instantly vaporized,

  • and consequently the floor from being instantly frozen.

  • Now the Leidenfrost effect does not last forever.

  • With enough liquid nitrogen the floor is eventually cooled enough

  • that the temperature difference no longer supports the effect and the liquid nitrogen soaks in.

  • So if I do put it on my hand I can only do so for a moment.

  • Nonetheless, the Leidenfrost effect will protect my hand from being instantly frozen.

  • Alright, so let's try it.

  • Let me fill this Dewar with liquid nitrogen.

  • Now if you look very closely,

  • the Leidenfrost effect is happening here too

  • as the liquid nitrogen is not yet contacting the sides of the Dewar

  • but a gas barrier is insulating it.

  • However the effect will break down eventually.

  • Human tissue is much less tolerant of cold than the floor or this steel Dewar

  • so i won't be able to put my hand in there for longer than a moment.

  • Alright, the nitrogen is ready.

  • I'm really nervous here, give me a moment to psyche myself up.

  • Whoa, my hand is ice cold right now.

  • But as you can see the nitrogen did not soak in,

  • and it's completely fine with no frostbite or other injuries.

  • The plume of mist from the liquid nitrogen shows that a lot of it vaporized to form the gas barrier around my hand.

  • Turning around the experiment.

  • I can also pour liquid nitrogen on my hand in short spills as long as i give my hand a few moments to recover.

  • This is pretty cold but the Leidenfrost effect prevents the liquid nitrogen

  • from directly contacting my hand and freezing it.

  • As long as my hand is warm enough, I can keep doing this.

  • Although it's starting to sting right now.

  • Thanks for watching, please subscribe, rate and comment.

Greetings fellow nerds.

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B1 中級 美國腔

手工氮與液氮的對比及雷頓霜效應。 (Hand vs. Liquid Nitrogen and the Leidenfrost Effect)

  • 220 6
    Dylandy Chang 發佈於 2021 年 01 月 14 日
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