Frozen Jello.
February 23, 2006 5:07 PM Subscribe
Imponderables: Many (most?) liquids ("things"?) will crystallize when cooled slowly. Why not Jello™?
Further to the question, cold-quenching or flash-freezing reduces crystallization. Does Jello do anything interesting if frozen using liquid nitrogen? Could one nail it to a tree?
Further to the question, cold-quenching or flash-freezing reduces crystallization. Does Jello do anything interesting if frozen using liquid nitrogen? Could one nail it to a tree?
I can vouch for that.
posted by puke & cry at 5:30 PM on February 23, 2006
posted by puke & cry at 5:30 PM on February 23, 2006
Best answer: I think one of the problems is that a lot of folks are taught about the three states of matter: gas, liquid, solid - as if that were all there is.
Pure compounds can exist as gases, liquids, or solids, and they phase transform. During the transformation from liquid to solid, most - but not all - compounds crystallize. Water crystallizes, forming ice.
However, there are amorphous phases - black carbon is amorphous carbon; diamond is crystal carbon. Window glass is amorphous silicon dioxide; rock crystal (quartz) is crystalline silicon dioxide.
When compounds mix, even more bizarre states of matter are possible, such as gels, sols, solutions, aerosols, colloids, aerogels, and who knows what else. Jello, unsurprisingly, is a 'gel' - water packed into a protein matrix, in this specific case.
Hopefully the above jargon terms would help you in Googling or Wikipedia-ing for more knowledge. (I have no idea what happens when you dip Jello in liquid nitrogen, by the way.)
posted by ikkyu2 at 5:36 PM on February 23, 2006
Pure compounds can exist as gases, liquids, or solids, and they phase transform. During the transformation from liquid to solid, most - but not all - compounds crystallize. Water crystallizes, forming ice.
However, there are amorphous phases - black carbon is amorphous carbon; diamond is crystal carbon. Window glass is amorphous silicon dioxide; rock crystal (quartz) is crystalline silicon dioxide.
When compounds mix, even more bizarre states of matter are possible, such as gels, sols, solutions, aerosols, colloids, aerogels, and who knows what else. Jello, unsurprisingly, is a 'gel' - water packed into a protein matrix, in this specific case.
Hopefully the above jargon terms would help you in Googling or Wikipedia-ing for more knowledge. (I have no idea what happens when you dip Jello in liquid nitrogen, by the way.)
posted by ikkyu2 at 5:36 PM on February 23, 2006
Of course Jello can freeze, and the ice crystals then melt when you thaw it out and make an runny mess.
I know this from experience when I was to impatient to wait for the Jello to cool in the fridge.
posted by Megafly at 6:17 PM on February 23, 2006
I know this from experience when I was to impatient to wait for the Jello to cool in the fridge.
posted by Megafly at 6:17 PM on February 23, 2006
Best answer: Jello isn't a fluid.
Jello is a matrix of polymerized long-string proteins with a high water content.
You can flash-freeze jello in lN2 and it'll get brittle. Defrost it and it'll turn into goop (the protein polymer gets denatured).
Lyophylizing (slowly dropping temperature while applying a vacuum) jello-like substances is kinda cool. It kinda shrinks and deforms a bit but you end up with a (very) brittle chunk of, "foam" (although there aren't any holes).
posted by PurplePorpoise at 8:19 PM on February 23, 2006
Jello is a matrix of polymerized long-string proteins with a high water content.
You can flash-freeze jello in lN2 and it'll get brittle. Defrost it and it'll turn into goop (the protein polymer gets denatured).
Lyophylizing (slowly dropping temperature while applying a vacuum) jello-like substances is kinda cool. It kinda shrinks and deforms a bit but you end up with a (very) brittle chunk of, "foam" (although there aren't any holes).
posted by PurplePorpoise at 8:19 PM on February 23, 2006
You're talking about already gelled Jello, right? Or do you mean un-gelled jello shots you've impatiently stuck in the freezer? If it's just-mixed powder & boiling water you're talking about, it's not yet a gel, it's a sol. Sticking set jello in the freezer is something different that sticking still-setting jello in the freezer.
If you've just poured in the boiling water, and you stick your jello pan in liquid nitrogen instead of the fridge like you should, the water won't yet be trapped in the gelatin matrix, and that untrapped water can freeze (like the mess megafly had to deal with). Normally in the jello setting process, the disordered gelatin strands in the hot water form an unordered network of proteins (with water trapped inside the pockets) as the solution cools.
If it's already set jello, I wouldn't know, but it looks like purpleporpoise does.
a tangential note: gel colloids inhibit freezing crystallization of stuff you put them in (which is one of the reason gums are added to commercial ice cream and frozen desserts--though gums are sugar branches, not peptides like in gelatin).
posted by neda at 8:48 PM on February 23, 2006
If you've just poured in the boiling water, and you stick your jello pan in liquid nitrogen instead of the fridge like you should, the water won't yet be trapped in the gelatin matrix, and that untrapped water can freeze (like the mess megafly had to deal with). Normally in the jello setting process, the disordered gelatin strands in the hot water form an unordered network of proteins (with water trapped inside the pockets) as the solution cools.
If it's already set jello, I wouldn't know, but it looks like purpleporpoise does.
a tangential note: gel colloids inhibit freezing crystallization of stuff you put them in (which is one of the reason gums are added to commercial ice cream and frozen desserts--though gums are sugar branches, not peptides like in gelatin).
posted by neda at 8:48 PM on February 23, 2006
Purpleporpoise: how and where did you manage to lyophylize jello?
posted by state fxn at 12:37 AM on February 24, 2006
posted by state fxn at 12:37 AM on February 24, 2006
Excuse the interruption, but this discussion, particularly the answers, are fascinating. Was talking with someone last week about sodium acetate heat packs, supercooled non-crystallized water, and all that. Been a while since college -- this is making me miss it.
posted by mumeishi at 7:50 AM on February 24, 2006
posted by mumeishi at 7:50 AM on February 24, 2006
state fxn - I was working in a place that researched antibiotics and they had an old machine for lyophylizing stuff. Office party, beer, jello - one thing led to another.
mumeishi - there's a hypothesis (admittedly semi-crackpot) that the "vacuum" of space is a supercooled liquid and that there's the possibility (given a high enough energy/whatever concentration somewhere) that the whole shebang will crystalize.
posted by PurplePorpoise at 10:18 AM on February 24, 2006
mumeishi - there's a hypothesis (admittedly semi-crackpot) that the "vacuum" of space is a supercooled liquid and that there's the possibility (given a high enough energy/whatever concentration somewhere) that the whole shebang will crystalize.
posted by PurplePorpoise at 10:18 AM on February 24, 2006
Response by poster: The lyophylizing bit is keenly interesting. I have access to a bell jar and vacuum pump.
Raspberry-flavoured Aerogel, here we come!
posted by five fresh fish at 10:38 AM on February 24, 2006
Raspberry-flavoured Aerogel, here we come!
posted by five fresh fish at 10:38 AM on February 24, 2006
It's very brittle.
posted by PurplePorpoise at 10:40 AM on February 24, 2006
posted by PurplePorpoise at 10:40 AM on February 24, 2006
This thread is closed to new comments.
Try it yourself!
posted by aubilenon at 5:27 PM on February 23, 2006