Boiling and freezing liquid at the same time
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4. Akuuu commented 10 years ago
It's not ice but precipitation.
There is a pump connected to that glasscontainer, the pressure is lowered and the solvent is evaporating.
You can ofter see ice during the process but it is on the outside of the glass due to the energy required for the evaporation.
#1 it can be any solvent water, cyclohexane, aceton, etc etc
@ADMINS, PLEASE GIVE US BACK OUR OLD RATING SYSTEM ...
There is a pump connected to that glasscontainer, the pressure is lowered and the solvent is evaporating.
You can ofter see ice during the process but it is on the outside of the glass due to the energy required for the evaporation.
#1 it can be any solvent water, cyclohexane, aceton, etc etc
@ADMINS, PLEASE GIVE US BACK OUR OLD RATING SYSTEM ...
29
5. UckFaOuYa1134 commented 10 years ago
Triple Point!
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6. braveheart2052 commented 10 years ago
this rating system sucks ! I hit the thumbs down just to see the rating ! and it`s not fair !
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7. zoidberg-returns commented 10 years ago
If you hate the rating system (like me), then just log out, and you can se the ratings. And stop rating comments. If we stand together we can change Snotr back :-)
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10. Excellence (admin) commented 10 years ago
#8 we changed it afterwards
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11. mrbombastic commented 10 years ago
They get the water to its "triple point". It's the thermodynamic equilibrium point where it can exist as solid liquid and gas at the same time. Then they shift the point a little and watch all the phase transformations.
You can do it with cyclohexane too I suppose you just need to adjust the pressure and temperature for it's triple point. Although some stuff require quite extreme conditions like graphite 4,765 K (4,492 °C)10,132 kPa (100.00 atm).
You can do it with cyclohexane too I suppose you just need to adjust the pressure and temperature for it's triple point. Although some stuff require quite extreme conditions like graphite 4,765 K (4,492 °C)10,132 kPa (100.00 atm).
+15 1. MrJaKoSe commented 10 years ago