Robert Emery ✝️ The only way to go to heaven is to trust in Jesus and repent (turn away from sins) and ask for forgiveness for your sins. Good deeds alone will not get you into heaven, you need to do good works and put your trust in the savior Jesus Christ our lord and you WILL be saved ✝️
@@AndrewKennethColborn hate to break it to you but "real" heat is scientificaly just what you described as microwave heat. "The release of kinetic energy through a medium." Heat is heat, doesnt matter how the electrons got excited. What you did just now is like saying frying a steak in a pan by means of conduction is more/less dangerous than over a open flame via convection. The steak gets cooked either way because the electons in it were excited. :)
@@navisaini973 Yup you are right. The foods that contain higher amounts of water tend to absorb microwave energy with a higher efficiency, while foods with lower water content absorb heat more slowly, causing uneven heating. This is due to the dipole that exists across a water molecule, which causes the negative and positive ends of the molecule to switch back and forth in the presence of the oscillating electromagnetic field. Because of this, water in a liquid state heats at a more efficient rate than ice, due to the fact that liquid molecules move more freely than the molecules in ice, generating more collisions and therefore more heat.
Emanuele Del Grande ✝️ The only way to go to heaven is to trust in Jesus and repent (turn away from sins) and ask for forgiveness for your sins. Good deeds alone will not get you into heaven, you need to do good works and put your trust in the savior Jesus Christ our lord and you WILL be saved ✝️
I worked in high vacuum metallization for a long time we did this with aluminum and other metals for coating various dialectic films. Pretty cool to hold aluminum in three states at the same time running a solid wire into a titanium diboride block to form a puddle for the vacuum to extract into a gaseous state
Is anyone able to explain to me how it can be hot enough to boil and cold enough to freeze simultaneously ? I assume it has to do with the low pressure but don’t see how the connection works. Thanks in advance to anyone who wants to take a stab at educating me on this.
@@teacherdave27 It is related to The pressure. Every material changes its freezy Point and boiling Point when The pressure change. It is a curve. Well, This is the Point where both curves get together. Notice that The pressure is extreme low at the water triple Point. (What will be expected, if the curve remembers some exponential function).
When I was a student I find difficult to understand how water can coexist in solid, liquid, and gaseous states now I am a physics teacher and I show this to my students their eyes glow when they see this. Nature is amazing.
I still don't understand. I heard boiling temperature changes in a vacuum? O.o So like, I saw the word pressure in the video and didn't read much. Maybe the pressure is affecting the boiling and freezing conditions too? :/
At first I thought this would just be some bubbles around a piece of ice that didn't have time to properly melt, but this is actually really cool to see it freeze over like that while boiling.
seeing this video, i have to remind myself to correct my initial understanding of boiling in liquid. liquid doesnt boil when its hot, but rather its better to say that liquid boil when it have enough energy to fight the surrounding pressure
@@DivergentDroid The bubbles. Any bubble you see form beneath the surface of the water is steam (i.e. gaseous water) You can see that some of them form, drift to the surface, and just sorta 'blister' in ice before they can pop or escape.
@@anachronity9002 ... the "triple point" and "triple state" are not the same thing. Triple point is "freezing point" and "boiling point" and "stability" at exactly the same time under the same conditions. The bubbles aren't steam, they are merely the trapped gasses being released because the boiling point has been reached early under vaccum, NOT because of temperature (which would cause steam) Triple state is therfore solid, liquid, gas/vapour at the same time... But, it's not all under the same conditions, since the temperature would be different throughout. I hope I've explained that well enough.
@@AdrianSmythe Ah, I never knew. I'd assumed they were the same. That's good to know. Thanks! I am confused though by this... "The bubbles aren't steam, they are merely the trapped gasses being released because the boiling point has been reached early under vaccum" So... if trapped gasses are being released due to the boiling point being reached early... isn't that steam? Or is steam somehow distinct from boiled water?
I work as a snow maker in the rockies. this presentation helps me understand water and cold, and pressure in very practical and interesting ways. it has re lit a sense of wonder for me.
@T Wilson He's trying to say it's super confusing when a girl signals to you. They signal to you, and to them, you're supposed to get it; and to you they just look like they're flapping their arms around making hamster noises
@@kenwoods9503 If a man could do this with the pure power of his mind, people would call him God, and others would still debate if the man was real or not. Like Shakespeare.
what? why would you call someone God because he can do something with his mind ? We do math and imagination all the time. I believe there's only one God, but it's not someone who can only bend a spoon. @@wolfrainexxx
Thanks for making this video; it doesn't make much of an impression when I saw it only as a curve/point on an engineering chart, but it is another level to actually see all these phases interacting together... It does make me wonder what useful things you could do with matter at that kind of transition point.
The hawk is a warrior cut, on all continents, since before writing, often a designation of belonging to a specific group amongst a people's warriors. S'not weird.
Never got to actually see the triple point before when learning chem. This is pretty neat. Wonder if there are special properties on substances we have yet to discover that might be useful.
Supercritical fluids are useful. That's not the same as holding a substance at the triple point. Don't confuse the critical point and the triple point, they aren't the same. Aerogel relies on using a supercritical fluid to dehydrate a silica gel matrix. Supercritical fluids are also used for everything from power production (supercritical steam and turbines optimized for that) to extracting the active components of cannabis. I'm unaware of any major use of the triple point, but I may be wrong and I'd love to hear about one. As for the critical point? That's incredibly important and I'm sure there are plenty of new applications for supercritical fluids yet to be discovered.
✝️ The only way to go to heaven is to trust in Jesus and repent (turn away from sins) and ask for forgiveness for your sins. Good deeds alone will not get you into heaven, you need to do good works and put your trust in the savior Jesus Christ our lord and you WILL be saved ✝️
@@ProgramViBee Who even cares. It's so funny to me how religious people argue about the bible. Like.. are they retarded? It wasn't written by a supernatural being.
Cool to see. I learned about saturation in an introductory thermodyics lesson for Navy Nuclear Power School and was shown the mollier diagram and deduced that something like this existed. Cool to see the interaction at play. Obviously the fluid dynamics means that any particular molecule of water is not all three phases at once, but the bowl being as close as possible to the triple point allows the three phases to interact near-seamlessly. Eventually at equilibrium the fluid had a specific direction of flow as it transitioned between the three phases.
When people ask how there is such thing as a Triune God, I tell them about the triple point of water as a visible example of one thing as three different things. Not a perfect example, but good enough to show the principle.
At 0:13 This sentence needs to be rewritten. The sentence says that the water was turned on. The sentence should say that the vacuum chamber (or vacuum pump) was turned on.
I was preparing for IIT JEE. I had studies this term triple point of water but never understood that how is this possible.Today I have seen this.I didn't knew equilibrium is that great thing. A big THANKS to The Experimenters.
Imagine if water’s secret is that it’s actually a living organism and it’s been hiding it this whole time. And then once we discover it’s secret it starts to attack and the only way to kill it is to get it at the triple point. I’m high af lmao
In both situations we will end up dead because if we don't deal with the water it will kill us and if we did the pressure and the temperature at the triple water point will kill us, so..
I'm not knowledgeable in this field, but my guess is that you'd want to use something with low thermal conductivity and radiation so that it doesn't affect the experiment, but you also don't want to use special and expensive materials because they could get destroyed by other more dangerous experiments, and special materials may not be as easy to manipulate for different experiments. A few toothpicks keeping chunks of cork in place is cheap, reusable, easy to rearrange, and inert to pressure and temperature.
I am not convinced that you've maintained triple point. It seems to me that equilibrium was not established, but I understand it is a delicate thing. Thrilled that you posted this. Cheers!
great!, I'm an engineer so the triple point is so familiar for me, however I never saw it happening, it was the same for me when I saw a fluid flowing in laminar regime
If I remember correctly this is called the Eutectic system. For example at normal atmospheric pressure , CO2 goes from a solid (dry ice) directly to a gas as temperature rises, whereas water H2O goes from solid Ice , through the liquid phase (water) to gas (steam) as the temperature rises. I think we have all seen Dry Ice go from solid direct to a gas.
No this is a different phenomenon than what you described. Dry ice is going through what is called sublimation when it goes from solid to gas. In this example of the water, the water is refreezes again after becoming a gas.
I'm confused. I understand the freezing, but where is the heat source to cause the boiling? If the temp is 0.1 degree Celsius, how is it boiling? And if it's boiling, there seems to be no steam. Without steam, there is no gas.
It's boiling at 0.1 c because the air pressure is incredibly low, just 0.6% of the air pressure at sea level; literally a vacuum. It takes less energy for the water to change from a liquid to gas, or from a solid to a liquid, as the air pressure lowers, which translates to boiling at a lower temperature. With less "stuff" holding them in place, the water molecules escape from each other more easily. As for the steam, there is absolutely steam. The steam you see coming off of a boiling pot, which is what most people think of, is visible because it's carrying huge numbers of tiny liquid water droplets, condensing back out of the steam when it comes into contact with the cooler air, which all reflect the light. Steam on its own is transparent. As this is happening in a vacuum, that condensation can't happen until the steam comes into contact with the walls of the vacuum chamber itself.
The heat source is ambient temperature. The water here is boiling because they lowered the pressure to just 0.006 atmospheres and at 0.01 C (typo in the video). Near freezing temperatures in this low pressure environment are plenty hot for the water to boil, while the near freezing temperature also allows ice to form.
I think it is because the test is inside a vacuum chamber at .0006 atmosphere. The lower the pressure, the lower the boiling point. As seen here, the boiling point is just slightly below freezing, thus giving the results seen here.
Well because your phones listens to everything you say, and sends that data to people who recommend things based on that.. Not a conspiracy look it up. Even scarier when you realize how many people are buying Amazon “whatever her name is”. Literally just a home listening device.
I'm guessing * But I think the boiling vapor would eventually win because it's in even less pressure than we are so the mist/vapor would float away slowly shrinking the pool of water
@@CadmusCurtis Well, perfect environment means that nothing enters and exits the vaccuumed environment, such that the water vapor gases will condensate/sublimate to the bottom of the container and repeat the cycle again with no losses.
Entropy is the answer - The experiment breaks down when energy is not being used to sustain the system. The water will eventually settle to a liquid state at room temperature and pressure.
I was told by my mother that my grandfather when fishing the bering straight was scared for his life as it was insanely cold and the sea was totally flat and they could hear the ocean surface freezing in the distance. Fish frozen in pond ice part way out of the surface in a leap cause a disturbance causing the super chilled water to freeze instantly trapping the fish.
I've always wondered... it looks like it's boiling, but has anyone ever measured the relative moisture exiting the vacuum to see if there's an increase in water?
I would say that the three states are existing at the same time in the same space but independent of each other. A portion of the water is boiling while a different portion is freezing and another portion is melting.
This is how us moms feel when we just got home from work, we're trying to help someone with homework, we're making dinner, and reading a book to the toddler. Freezing, boiling, and melting at the same time. The triple point of motherhood.
How would you like your coffee ?
Boiling ice cold and dry
You'll have to drink it inside a vacuum chamber then 😂
It's not dry.
@@ETAisNOW-wn8wx wet?
@@PedroGomez-bd9ro Yes. Wet. Water is wet. Very good, Pedro. You just might make it after all.
@@winstonsmith11 hahaha
Bro you're going to crash the simulation doing things like this.
🤣🤣🤣
Lmao
LoL 😂 🤣
"Bro stop crashing the simulation, you're scaring the hoes"
Lol was typing that and had to stop because i seen ya already posted it and didnt want the simulation to terminate me
It's so hard to visualize complex subjects like this, im so glad to see this on here.
The non-scientific term is "confused water"
*insert confused travolta .gif here*
You read my mind.
Water that has creeper/pp on it
Mihail Stefanov *screams in hydrogen and oxygen*
I believe they prefer to call themselves "gender fluid" these days.
I learned about triple point in high school chemistry, but this is the first time I've seen it demonstrated.
Pretty freaking cool!
Robert Emery ✝️ The only way to go to heaven is to trust in Jesus and repent (turn away from sins) and ask for forgiveness for your sins. Good deeds alone will not get you into heaven, you need to do good works and put your trust in the savior Jesus Christ our lord and you WILL be saved ✝️
@@yyacobb uhh... Was there a reason for that non-sequitur post?
I will simply reply that fried avocados prove puppies can't dance.
@Robert Emery Really? Now I have to fry some avocados. I could have sworn I saw dancing puppies. Or were they pomegranate sandals?
@@tomkenney5365 well, I offer this as proof of my hypothesis (in true flerfer fashion)...
ua-cam.com/video/jKF3H-qdmWU/v-deo.html
@Robert Emery Ok, I see it now. Thanks for the documentary. And, I hadn't heard of flerfs before. (News travels slow out here close to the edge.)
this feels like something that we weren't supposed to know
This is “gott ist tot”
Wait untill they learn about hypercritical water
When you freeze boiling water for later
Roflmao
Mpemba effect?
Big brain
This deserves a LoL, my friend.
it is always good to have some boiling water at hand!
my microwave does it better: the steak will be completely frozen and burnt at the same time
Emanuele Del Grande Beczif the Wave length. Look into it.
Cooked steak on the outside but completely frozen in the inside
@@AndrewKennethColborn hate to break it to you but "real" heat is scientificaly just what you described as microwave heat. "The release of kinetic energy through a medium." Heat is heat, doesnt matter how the electrons got excited. What you did just now is like saying frying a steak in a pan by means of conduction is more/less dangerous than over a open flame via convection. The steak gets cooked either way because the electons in it were excited. :)
@@navisaini973 Yup you are right. The foods that contain higher amounts of water tend to absorb microwave energy with a higher efficiency, while foods with lower water content absorb heat more slowly, causing uneven heating. This is due to the dipole that exists across a water molecule, which causes the negative and positive ends of the molecule to switch back and forth in the presence of the oscillating electromagnetic field. Because of this, water in a liquid state heats at a more efficient rate than ice, due to the fact that liquid molecules move more freely than the molecules in ice, generating more collisions and therefore more heat.
Emanuele Del Grande ✝️ The only way to go to heaven is to trust in Jesus and repent (turn away from sins) and ask for forgiveness for your sins. Good deeds alone will not get you into heaven, you need to do good works and put your trust in the savior Jesus Christ our lord and you WILL be saved ✝️
I worked in high vacuum metallization for a long time we did this with aluminum and other metals for coating various dialectic films. Pretty cool to hold aluminum in three states at the same time running a solid wire into a titanium diboride block to form a puddle for the vacuum to extract into a gaseous state
Sounds like Alzheimer's waiting to happen
Is anyone able to explain to me how it can be hot enough to boil and cold enough to freeze simultaneously ? I assume it has to do with the low pressure but don’t see how the connection works. Thanks in advance to anyone who wants to take a stab at educating me on this.
@@teacherdave27 It is related to The pressure. Every material changes its freezy Point and boiling Point when The pressure change. It is a curve.
Well, This is the Point where both curves get together. Notice that The pressure is extreme low at the water triple Point.
(What will be expected, if the curve remembers some exponential function).
@@leonardoaraujo8364 thanks for helping me understand this better, I appreciate your time.
@@youtubeuser7798 Yeah if inhaling aluminum doesn't do it, not sure what will
When I was a student I find difficult to understand how water can coexist in solid, liquid, and gaseous states now I am a physics teacher and I show this to my students their eyes glow when they see this. Nature is amazing.
Amazing how this can be occur when looking at the planet as a whole.
I'm in eighth grade drop out but I study this stuff all the time now amazes me. Wish I had a time machine to go back
Amazing how you're a physics teacher, but you can't write a sentence lol.
@@redguy8941 nail meet hammer lol
I still don't understand.
I heard boiling temperature changes in a vacuum? O.o
So like, I saw the word pressure in the video and didn't read much. Maybe the pressure is affecting the boiling and freezing conditions too? :/
Water.exe has stopped working
Kino Film Academy on the contrary, you haven’t even seen it’s final form!!
@@thewatcherinthecloud water has a 4th form: Frieza!
WHY ARE YOU YELLING, FELLOW HUMAN UA-cam VIEWER?
When cs engineers meets mechanical engineers
@@musclee-mac8768 actually plasma
The water has unlocked a new achievement "Do everything at the same time"
*How did we get here*
jack of all trades
This is how my body feels when I’m in bed and can’t sleep because I can’t decide if I’m too hot or too cold
Just flip the pillow and you're good to go lmao
Exactly!
@@victormillen8393 Really? Seems to make it worse.
@@JonatasAdoMit's sort of a joke, but it works.
Leave one leg out of the quilt and if you need to cool down more, throw out the opposite arm.
nothing like a bowl of boiling ice water to quench the thirst
I'm scared to drink/chew it. Or breathe it for that matter.
@@DragoNate heheh ... That MATTER, that matter
@@xxxenaaa1993 ;)
and if we add ramen noodles? then what? LOL
@@theoriginalchefboyoboy6025 No! that would rip a hole in the space-time continuum!
Thank you for demonstrating the spring seasons in Canada to everyone around the world. 🇨🇦. ❤️ 💙
At first I thought this would just be some bubbles around a piece of ice that didn't have time to properly melt, but this is actually really cool to see it freeze over like that while boiling.
Evaporation takes away heat which is why the outside becomes colder than the inside, i think. It's really interesting.
I'll watch again knowing this info. Thanks!
“This video has no sound.”
Me: *_raises volume_*
What. are you deaf? the song is 'the sound of silence'. crank it up
Me xD
🤣 i didnt raise sound i was confused trying to understand and the video ended without understand 😁 didnt think on the sound!!!
@@corpsetime u sir, are dead wrong.
The actual song is
Darude sandstorm
@@AhmoBandolero it's quite possible. Maybe this reaction cancels all noise?
Scientist: Are you a gas, liquid or solid?
Water at it's triple point: Yes.
Go home water, you're drunk.
william robert getting drunk as a liquid must be horrible
Just don't drive yourself
Good one
Heh
More like: Go home drunk, you're water
That water needs more blankets, and less blankets at the same time.
WLG WLG I am afraid you are right.
You two, are my new favorite people
WLG WLG so, water is your girlfriend?
@@MisterK9739 you ever see Walk Hard, the Dewey Cox Story?
That's me when I'm sick I'm simultaneously freezing and burning up
I can't describe the bewildered look on my face as I watch this unique demonstration
Mmm. Freezing, melting and boiling at the same time; sounds like a bad day at the office.
I was literally about to go to sleep when I thought I'd refresh one last time and I see this suggested. You learn something new every day. Brilliant!
well apparently not if you almost went to sleep without learning something new for the day. wtf?
@@doomality I said you learn something new everyday, not that this was the very first new thing I'd learned🙄
@@Dreemer94 must've been a close call!
@@doomality no, no it wasn't...
@@Dreemer94 what was it that you learned that was new on that day?
This is absolutely fascinating. Never thought this would be something that is possible.
Thumbnail looks like come
seeing this video, i have to remind myself to correct my initial understanding of boiling in liquid. liquid doesnt boil when its hot, but rather its better to say that liquid boil when it have enough energy to fight the surrounding pressure
That makes a lot of sense! Thank you for adding some context to the vid
True, thanks for enlightening me.
@@FlockofSmeagles you;'re welcome. im flattered
It also means that it is, slightly, easier to boil water at the top of a mountain than at ground level, but the cuppa you end up with won't be as hot.
And why pressure cookers are essential for people living at high altitude ☺
"Wow this isn't that exciting."
*Steam bubbles start freezing*
"Oh nevermind this is sorcery."
What Steam? I didn't see any steam.
@@DivergentDroid The bubbles.
Any bubble you see form beneath the surface of the water is steam (i.e. gaseous water)
You can see that some of them form, drift to the surface, and just sorta 'blister' in ice before they can pop or escape.
@@anachronity9002 ... the "triple point" and "triple state" are not the same thing.
Triple point is "freezing point" and "boiling point" and "stability" at exactly the same time under the same conditions. The bubbles aren't steam, they are merely the trapped gasses being released because the boiling point has been reached early under vaccum, NOT because of temperature (which would cause steam)
Triple state is therfore solid, liquid, gas/vapour at the same time... But, it's not all under the same conditions, since the temperature would be different throughout.
I hope I've explained that well enough.
@@AdrianSmythe Ah, I never knew. I'd assumed they were the same.
That's good to know. Thanks!
I am confused though by this...
"The bubbles aren't steam, they are merely the trapped gasses being released because the boiling point has been reached early under vaccum"
So... if trapped gasses are being released due to the boiling point being reached early... isn't that steam? Or is steam somehow distinct from boiled water?
I work as a snow maker in the rockies. this presentation helps me understand water and cold, and pressure in very practical and interesting ways. it has re lit a sense of wonder for me.
When a girl is giving you "signals" 😂 😂
@T Wilson
He's trying to say it's super confusing when a girl signals to you. They signal to you, and to them, you're supposed to get it; and to you they just look like they're flapping their arms around making hamster noises
😂😂😂
LoL
hahah relatable...
@T Wilson Then you must be single bro !
"Sufficiently advanced technology is indistinguishable from magic" This is totally true here.
Equilibriums are always interesting, evaporation needs energy and in doing so, freezes the water
@@kenwoods9503 If a man could do this with the pure power of his mind, people would call him God, and others would still debate if the man was real or not.
Like Shakespeare.
@@kenwoods9503 I'd be happy if someone cold use THEIR mind to just spell correctly.
what? why would you call someone God because he can do something with his mind ?
We do math and imagination all the time.
I believe there's only one God, but it's not someone who can only bend a spoon.
@@wolfrainexxx
Thanks for making this video; it doesn't make much of an impression when I saw it only as a curve/point on an engineering chart, but it is another level to actually see all these phases interacting together... It does make me wonder what useful things you could do with matter at that kind of transition point.
Nothing much that's useful. It's not free energy.
@@Raison_d-etre this.
You could make a video and it on UA-cam. Thats a useful thing
Teacher: the test isn’t that hard
The test:
"Set your temperature to the triple point of human"
Normie
@@Perririri yes
Mind blowing. This is truly fascinating.
so this is why my pencil phased through the ground when it fell off my desk. you lagged the server to death.
Me: Show me something weird with a non-weird object.
UA-cam:...
Darshan Dabrase dude, water is as weird as it gets in chemistry. It’s truly a miracle substance
Yes, but I am just tried to being sarcastic.
And by the water is weirdest object in universe.
Your hair indicates you have no real grasp on the word „weird“
@@RayTC how?
The hawk is a warrior cut, on all continents, since before writing, often a designation of belonging to a specific group amongst a people's warriors. S'not weird.
Starbucks' new drink lineup:
Boiling Cold and Icy Hot Lattes.
I was thinking one will steal the idea, haha
So it's a latte with that icy hot rub stuff in it? 😂
I am so happy to observe the triple point for water, thanks a million. ❤❤
When you ask her what she wants
*i don’t know why this was in my recommended, but I’m not complaining.*
I can't be the only one to actually look this up instead of being recommended it hehe
Soooo is it hot or is it cold?
cold, duh. 0.1 c or whatever
yes
That ended up being a lot cooler than i thought it would be! Thanks for posting
very punny
It’s so powerful that there’s no sound
Even if there was a microphone, sound doesn't travel well at near-vaccuum pressures.
Well, your comment has no sound either
Man Chul it's not powerful either
Everyone farts in vaccum chamber nowadays
@@franckmarronier130 I just do it at the vacuum so it doesn't smell
I first saw this phenomenon in my college physics class almost four decades ago. It’s still as awesome as ever.
Never got to actually see the triple point before when learning chem. This is pretty neat. Wonder if there are special properties on substances we have yet to discover that might be useful.
I know this was 2y ago 😂 but my thoughts exactly
the triple point is useful look at how aerogel is made
Supercritical fluids are useful. That's not the same as holding a substance at the triple point. Don't confuse the critical point and the triple point, they aren't the same. Aerogel relies on using a supercritical fluid to dehydrate a silica gel matrix. Supercritical fluids are also used for everything from power production (supercritical steam and turbines optimized for that) to extracting the active components of cannabis.
I'm unaware of any major use of the triple point, but I may be wrong and I'd love to hear about one. As for the critical point? That's incredibly important and I'm sure there are plenty of new applications for supercritical fluids yet to be discovered.
@@ParadigmUnkn0wn thanks!! i knew the previous comment didn’t sound right and was about to have to google how aerogel is made
Yes, this is a field of study, especially with electrical and magnetic properties.
water : "WHAT AM I !?!"
scientist : mwahahaha
Anyone else notice the blatant "Cock and balls" formation of the frozen ice at the beginning? Or was it Freud.........
The strongest shape
Oh they're torturing the water
😭
✝️ The only way to go to heaven is to trust in Jesus and repent (turn away from sins) and ask for forgiveness for your sins. Good deeds alone will not get you into heaven, you need to do good works and put your trust in the savior Jesus Christ our lord and you WILL be saved ✝️
@@yyacobb what does your comment have to do with this video or the comment you replied to?
Just putting water in avatar state..
Go Nuclear Gaming If that was true, then why did God make his word so much like many other religions? He needs to be clear for us Hoomans
@@ProgramViBee Who even cares. It's so funny to me how religious people argue about the bible. Like.. are they retarded? It wasn't written by a supernatural being.
Waiter: how do u like that cooked?
Me: raw, medium, medium rare and well done please
That's easy to do.
"Um thats quadruple point, sir. We don't serve that here"
I've 'understood' that since school, but that's the first time I've 'seen' it!
Well done.
Cool to see. I learned about saturation in an introductory thermodyics lesson for Navy Nuclear Power School and was shown the mollier diagram and deduced that something like this existed. Cool to see the interaction at play. Obviously the fluid dynamics means that any particular molecule of water is not all three phases at once, but the bowl being as close as possible to the triple point allows the three phases to interact near-seamlessly.
Eventually at equilibrium the fluid had a specific direction of flow as it transitioned between the three phases.
r/iamverysmart
@@redgreenbloo go suck yourself they explained what we are observing very well
0:38 What an interesting shape ice has!
sus!
At this point in time the water is starting to get really hot.......
ALWAYS wanted to see the triple point, THANK YOU UA-cam and thank you UCSC!!!!
Wow, seeing something you've never seen before is sometimes cool
That boiling ice was... sublime.
When people ask how there is such thing as a Triune God, I tell them about the triple point of water as a visible example of one thing as three different things. Not a perfect example, but good enough to show the principle.
0:33 that ice be looking suggestive if you know what I mean.🤔
The water is confused about what state it should be in.
Amazing! I have studied about this at undergraduate level but first time seeing it experimentally
At 0:13 This sentence needs to be rewritten. The sentence says that the water was turned on. The sentence should say that the vacuum chamber (or vacuum pump) was turned on.
Water turns me on
Engineer me: "Neat!"
Juvenile me: "Why does the ice initially look like a...?"
🤣🤣
Glad I wasn’t the only one…😂😂
Username checks out
I've always wanted to see this since college. Wish I found this sooner.
I was preparing for IIT JEE.
I had studies this term triple point of water but never understood that how is this possible.Today I have seen this.I didn't knew equilibrium is that great thing.
A big THANKS to The Experimenters.
Beta HCV laga le..warna wat lag jayega 😂
Imagine if water’s secret is that it’s actually a living organism and it’s been hiding it this whole time. And then once we discover it’s secret it starts to attack and the only way to kill it is to get it at the triple point.
I’m high af lmao
evil natural water
If that happens, we are doomed !
In both situations we will end up dead because if we don't deal with the water it will kill us and if we did the pressure and the temperature at the triple water point will kill us, so..
ill take a hit to that
*Netflix Productions* _wants to know your location_
Why is this like actually the coolest thing I've seen all day.
Why hold it up with corks and a toothpick? SERIOUS QUESTION.
I'm not knowledgeable in this field, but my guess is that you'd want to use something with low thermal conductivity and radiation so that it doesn't affect the experiment, but you also don't want to use special and expensive materials because they could get destroyed by other more dangerous experiments, and special materials may not be as easy to manipulate for different experiments.
A few toothpicks keeping chunks of cork in place is cheap, reusable, easy to rearrange, and inert to pressure and temperature.
Mainly for the pressure resistance, and simply to be inexpensive.
Very nice! Thanks :D However, a little typo: triple point occurs at 0.01 °C (273.16 K), not 0.1 °C.
Bro everyone knows that!
@@ryanburbridge not me 😂
I mean he just rounded i guess.
@@egominer5624 Rounding would be 0
@@dylanmcvicker8330 elaborate, please...🤯
I am not convinced that you've maintained triple point. It seems to me that equilibrium was not established, but I understand it is a delicate thing. Thrilled that you posted this. Cheers!
Had no clue this was possible. Incredible.
great!, I'm an engineer so the triple point is so familiar for me, however I never saw it happening, it was the same for me when I saw a fluid flowing in laminar regime
Гальванизированный Труп laminar flow is soooo cool so silky smooth and can” bend” light! I know just reflections within the “walls” of the flow
@@majinkaos I didn't know that about the interaction of laminar flow with light!, I will definitely will check it thanks
this is really neat. Does know the triple point serve any practical purpose? Can we DO anything with that knowledge?
It would have been interesting to have a real-time readout of the temperature and pressure in the video.
I was thinking the exact same thing.
Hello everyone, this *youuur* daily dose of internet.
I love those videos, but I hate that guy's voice. lol
@@johnjungkook2721 Why lol
Triple point of water is used to calibrate precision temperature measuring devices.
PMEL
"Hey water, where ya wanna eat tonight?"
Water:
This is amazing, thank you for showing ❤
If I remember correctly this is called the Eutectic system.
For example at normal atmospheric pressure , CO2 goes from a solid (dry ice) directly to a gas as temperature rises, whereas water H2O goes from solid Ice , through the liquid phase (water) to gas (steam) as the temperature rises. I think we have all seen Dry Ice go from solid direct to a gas.
No this is a different phenomenon than what you described. Dry ice is going through what is called sublimation when it goes from solid to gas. In this example of the water, the water is refreezes again after becoming a gas.
i am quite curious, for how long can the triple point exist in equilibrium?
Indefinitely. This is a closed system the energy required for phase changes comes from the environment
I'm confused. I understand the freezing, but where is the heat source to cause the boiling? If the temp is 0.1 degree Celsius, how is it boiling? And if it's boiling, there seems to be no steam. Without steam, there is no gas.
It's boiling at 0.1 c because the air pressure is incredibly low, just 0.6% of the air pressure at sea level; literally a vacuum. It takes less energy for the water to change from a liquid to gas, or from a solid to a liquid, as the air pressure lowers, which translates to boiling at a lower temperature. With less "stuff" holding them in place, the water molecules escape from each other more easily.
As for the steam, there is absolutely steam. The steam you see coming off of a boiling pot, which is what most people think of, is visible because it's carrying huge numbers of tiny liquid water droplets, condensing back out of the steam when it comes into contact with the cooler air, which all reflect the light. Steam on its own is transparent.
As this is happening in a vacuum, that condensation can't happen until the steam comes into contact with the walls of the vacuum chamber itself.
@@Terran123rd Thank you for your explanation. It's much more clear to me now.
@@JohnDaker_singer Happy to help.
@@JohnDaker_singer 👉😏👉
"Clear", nice pun.
The heat source is ambient temperature. The water here is boiling because they lowered the pressure to just 0.006 atmospheres and at 0.01 C (typo in the video). Near freezing temperatures in this low pressure environment are plenty hot for the water to boil, while the near freezing temperature also allows ice to form.
Very cool to see the triple point of water demonstrated so clearly. Niiice.
If water could think, it’d be saying “Kill... me...”
It can thats why its interesting watch this
ua-cam.com/video/7XJ1lkliKZI/v-deo.html
Water has memory, though; at this point, it might have memory loss.
Neil Degrasse Tyson introduced me to the concept of triple point.
That's exactly why I'm here.
Weird, he's usually just talking about Neil most of the time.
That 2min video would have spared our chemistry teacher a lot of confused students back in the 90s.
I think it is because the test is inside a vacuum chamber at .0006 atmosphere. The lower the pressure, the lower the boiling point. As seen here, the boiling point is just slightly below freezing, thus giving the results seen here.
You don't need to think, it's all explained in the video. "It" "is" because of the triple point.
Me: Watching fail videos and laughing away.
UA-cam: If you think those are funny, you'll love this!
Water is supremely weird for such a simple molecule.
I just learnt this today in Phase Rule
How did this pop in my recommendation
Well because your phones listens to everything you say, and sends that data to people who recommend things based on that.. Not a conspiracy look it up. Even scarier when you realize how many people are buying Amazon “whatever her name is”. Literally just a home listening device.
Phase Rule🤯, I need to know more....in my Dr.Strang voice....
Because Google is evil.
Because
*SCIENCE*
is this the first time that this had happened to you, or that you've noticed?!?
Would this be a continuous reaction in a perfect environment? Or will one ultimately take over?
I'm guessing * But I think the boiling vapor would eventually win because it's in even less pressure than we are so the mist/vapor would float away slowly shrinking the pool of water
@@CadmusCurtis Well, perfect environment means that nothing enters and exits the vaccuumed environment, such that the water vapor gases will condensate/sublimate to the bottom of the container and repeat the cycle again with no losses.
Entropy is the answer - The experiment breaks down when energy is not being used to sustain the system. The water will eventually settle to a liquid state at room temperature and pressure.
only if by perfect you mean there is no energy loss. otherwise it will eventually settle in the lowest energy state
It would have been helpful if the temperature and pressure were displayed onscreen as well.
This still doesnt explain how my mom always burned the Kool-Aid.
This has the similar vibe as...
That very first intense experience you explore yourself and get some very nice load out of your body as a true man
Bruh 💀
Now how do you close the dimensional portal you just opened?
The water at triple point gets confused.
Wow, the steam comes from that looks like the inside of the frozen body? I never thought I'd get to see something like that.
I was told by my mother that my grandfather when fishing the bering straight was scared for his life as it was insanely cold and the sea was totally flat and they could hear the ocean surface freezing in the distance.
Fish frozen in pond ice part way out of the surface in a leap cause a disturbance causing the super chilled water to freeze instantly trapping the fish.
I've always wondered... it looks like it's boiling, but has anyone ever measured the relative moisture exiting the vacuum to see if there's an increase in water?
You can put the plate on a scales, it should be easier.
i did...anfd it did NOT turn out well :)
...jk...a smart question...i guess
@@GogiTavadze that would not work inside a vacuum chamber.
@@CarnivoreConservative for what reason would a scale not work in a vacuum?!
@@CarnivoreConservative Why not? They work perfectly well under vacuum.
Trinity explained by water is just amazing
Today I learned about this concept and now i can see how
really it happens ....so phenomenal
Waiter: 😐what to drink?
Me: 😀
My water: 🤯
My waiter: 😑
Me: 😂🤣😂🤣
My water: 😡🥶🥵🤯🤬
My waiter: 😵
Thats crazy, can you do that with DMT ?
I would say that the three states are existing at the same time in the same space but independent of each other. A portion of the water is boiling while a different portion is freezing and another portion is melting.
This is how us moms feel when we just got home from work, we're trying to help someone with homework, we're making dinner, and reading a book to the toddler. Freezing, boiling, and melting at the same time. The triple point of motherhood.