Freezing a cold bottle of water by slamming it?

AI Thread Summary
A discussion centers around a trick where slamming a cold, nearly frozen bottle of water causes it to freeze instantly. Participants speculate on the science behind this phenomenon, suggesting that slamming the bottle may create a decrease in pressure, allowing the temperature to drop and facilitating crystallization. The conversation also touches on the concept of supercooling, where water remains liquid below its freezing point until disturbed, leading to rapid freezing upon impact. Some contributors question how much water actually freezes, with suggestions that only a small percentage may solidify, primarily at the surface. Overall, the consensus leans towards the idea that the trick involves a combination of supercooling and pressure changes.
David Laz
Messages
28
Reaction score
0
Heyas.
Recently my brother showed me a trick with a plastic bottle of very cold water. It was out of the freezer, pretty cold, but not frozen. He took the bottle and slammed it against the counter and the bottle froze up. I'm at a loss for explaining why this happens.. The only thing I can think of is when its slammed air is escaping the P decreases, allowing T to decrease allowing some of the particles to crystalise.

Anyone else got an idea?
 
Physics news on Phys.org
Maybe the bottle was a vaccum. In a vacuum the point of freezing isn't as high and the point of boiling is lower, at least I'm pretty sure. Then when he slammed it the vacuum was broken and the water froze.

I did something similar with a candle. When I put a jar over the candle the flame went out, consuming all the oxygen with it, this created a vaccum. When this happened the warm wax boiled. Although with your situation I may have got it backwards.
 
Perhaps it was supercooled, and by slamming it he knocked particles off the sides, allowing the water to freeze.
 
Like slamming a fizzt drink down.
 
I would like to duplicate this trick. Was the bottle completely full? Did it contain only water? Why wasn't it frozen? You've left out a lot of detail.
 
This is extra clear with fizzy drinks as the gas escaping is more evident.
 
actionintegral said:
I would like to duplicate this trick. Was the bottle completely full? Did it contain only water? Why wasn't it frozen? You've left out a lot of detail.
Bottle was very much full, contained only water, wasn't frozen because it wasn't in the freezer for long enough. There may have been some frozen water in there, but more was produced when it was slammed.
 
Thanks for the link, lurch - very cool
 
  • #10
LURCH said:
I think The Shredder has it right.

Woah! :bugeye:
 
  • #11
David Laz said:
Heyas.
Recently my brother showed me a trick with a plastic bottle of very cold water. It was out of the freezer, pretty cold, but not frozen. He took the bottle and slammed it against the counter and the bottle froze up. I'm at a loss for explaining why this happens.. The only thing I can think of is when its slammed air is escaping the P decreases, allowing T to decrease allowing some of the particles to crystalise.

Anyone else got an idea?
How much water actually froze? Was it just water on the surface of the bottle or more? It seems to me that even if you supercooled the water by a couple of degrees, the latent heat released when the water freezes is going to warm up a lot of the remaining water. Every gram of water that freezes is going to give off enough heat to raise the temperature of 80 grams of water 1 degree C. I can't see how more than a few percent of the water in the bottle could freeze, but I can imagine the surface of the bottle being coated with ice. If more than that froze, then supercooling must be draining off a lot of the latent heat without forming crystals.
 
  • #12
OlderDan said:
How much water actually froze? Was it just water on the surface of the bottle or more? It seems to me that even if you supercooled the water by a couple of degrees, the latent heat released when the water freezes is going to warm up a lot of the remaining water. Every gram of water that freezes is going to give off enough heat to raise the temperature of 80 grams of water 1 degree C. I can't see how more than a few percent of the water in the bottle could freeze, but I can imagine the surface of the bottle being coated with ice. If more than that froze, then supercooling must be draining off a lot of the latent heat without forming crystals.
I'd say a small % froze. But it was very noticable.
 
  • #13
I used to work with very pure gallium. It will melt in your hand (not advised), or under a lamp, and will stay molten at room temperatures (supercooled). If you touch the molten metal with a solid crystal, you can watch the liquid solid boundary gradually creep as the liquid turns to solid at the boundary.
 
  • #14
Simple hitting it increase pressure and that made the point of congelation higher
 

Similar threads

I How can visible gas bubbles remain intact inside frozen water?
Replies
8
Views
1K
Air vs water as insulation for my cold frame
Replies
3
Views
8K
B Does movement affect H2O freezing temperature?
Replies
16
Views
5K
Could we make a practical solar fridge?
Replies
30
Views
3K
Frozen Salty Water: What's Really Happening?
Replies
8
Views
9K
Hot water freezes faster than cold?
Replies
1
Views
2K
Buried water pipes freeze-has been cold-the sun comes out
Replies
10
Views
2K
Can someone explain the vacuum pressure created by water pressure on waders?
Replies
9
Views
5K
Mysterious Water Freezes Instantly in Cold Climate
Replies
2
Views
3K
Need help rigging something to chill soil.
Replies
4
Views
3K

Hot Threads

Recent Insights

Back
Top