That's not surprising, it's filled with fluid, which is pretty damn hard to compress. The only reason it crunches in at all is because of the little bit of air gap in the can.
As a diver, they did exactly as I thought they would. They'd crush down until all airspace was filled with liquid and then stay that way until pressure was removed.
Meanwhile, people at my old job left coke cans in the freezer, and exploded in dramatic fashion, leaving a sticky slush on all exposed surfaces facing the cans.
water will expand when frozen breaking the can it's in water dose not compress very much so the can won't break just crush a little but a bottle won't crush a little it will implode .
If you froze the can at depth, the coke would not freeze. Applying pressure lowers the freezing point. i did this experiment with water in a lecture bottle. It did not freeze at -18F. Upon opening the valve, water momentarily sprayed out, then it & the rest in the bottle instantly froze.
How do you manage to get the pressure up in the chamber? I assume you just pump more water in using a very thin/narrow pump, though the pump would need to have some extremely strong around the piston to stop water just going around the piston head, or tolerances so tight that water can't get around the piston head. The other way would be compressing the container itself after filling it like a giant syringe, though again the tolerances and seals would need to be even stronger than those on a tiny piston that pumps in like 0.01ml of water per stroke. I'm curious as to how the pumping and valve mechanism works and manages to hold water while not deforming and leaking. You should make a video explaining how the thing works.
hydrostatic testing is generally done using a compressed gas that comes in a cylinder. The gas is used to exert pressure on fluid that feeds the chamber. i.e. no gas enters the test vessel. If the vessel ruptures the gas pressure supply is shut down immediately and the fluid within doesn't catastrophically explode like it would if it was full of the gas. This way, the location of failure point is preserved for study. The pressure exerted on the fluid can be multiplied using mechanical advantage.
I mean I don't know they work, but hydraulic pumps on common industrial requirement run at 3000 psi. So high pressure fluid pumps are not that hard to make.
None. They would have died sooner, but the craft could have remained totally intact, given if it were buoyant enough to ascend (loaded with a LOT of deep sea foam). In fact, this technology is used in deep sea equipment. There is a thicker hull with an oil fill, but there is a "pressure compensating bellows" that like the Coke can, makes the stress on the hull almost zero.
@@SoulDelSol The human body can survive (with special gas mixes) at about 1000 feet (~300 meters) depth MAXIMUM. This is about 30 atmospheres. (It requires over a MONTH to slowly compress & decompress from these depths safely.) The hull of the Titan (& other deep-sea submersibles) have to withstand the pressure of the sea (on the order of 7000 pounds per square inch, about 500 atmospheres pressure) so the people inside don't have to. If you can figure out how to survive at 500 atmospheres pressure while submerged in Coke, then the "Coke can" hull concept will work. The rest of us will stick to thick titanium hulls for our undersea craft. The whole reason the Coke can survives undamaged is because in essence, the can does nothing, other then keep the Coke from mixing with the sea water. Otherwise, it is as if the can had a hole in it, passing the pressure from the outside to the inside.
@@SoulDelSol Nope. Humans can survive up to 30 atmospheres MAXIMUM. Titan went to 500 atmospheres. The compressed air in the scuba tanks would not even come out because the pressure outside is greater than that.
Liquids are NOT incompressibile. This is a simplification we use in day to day life because the compression is too tiny to matter in most circumstances. Even at peak depth of this chamber (around 5000 meters), the water has only compressed about 1% in volume. The same is true for solids, by the way - but they're even less compressibile than liquids. One example of compressing solids is actually atomic bombs. A sphere of radioactive material is surrounded by powerful conventional explosives. The explosives compress the radioactive material JUST ENOUGH to cause it to "go critical". That said, nothing needs to be compressibile to have pressure. Just look at the plumbing in your house. Water is coming out under pressure because a pump is pushing it out. This chamber just has a REALLY powerful pump.
Gay-Lussac's law has NOTHING TO DO with this exercise. As soon as the pressure went up (to a few atmospheres), THERE WAS NO GAS (it all became dissolved in the liquid).
I would be interested to see the same can descend and surface, and see if it deforms in the same place and how many dives would it take before a stress failure?
I wonder at what depth would the density of water would match that of the coke can? Would it ever sink until they match and it would just float at that depth?
I love these videos. It is great to see what would happen in the deepest parts of the ocean. Pressure proof cases, like Pelican cases, have a depth limit. It would be nice to see how far beyond their maximum depth they could withstand. Also, you could re-run this test with plastic Coke bottles. Also, what would happen to wood, fruits, vegetables at those depths? Leather, like boots and shoes? What would happen to uncooked pasta in water at these pressures?
@@TheDropzoneChannelHi I would like to see you put one of those small gas cylinders that fizz up drinks into your pressure chamber. Or to put a sausage into some sort of capsule and see what happens when it implodes. Love your channel 👍
How far can didn't types of lightbulbs go without imploding? Lightbulbs like HPS, MH, Halogen, and traditional lamp bulbs, I don't think the modern leds are going to be very interesting.
I'm new to this type of content. I like your style of testing objects in deep water. I haven't seen stuff like this before. I hope your channel blows up and doesn't (implode). Many years ago I saw the effects of deep sea depths and Styrofoam cups. You should do that on a video soon. If you can or know someone who can put some artwork onto the outside of a Styrofoam cup, put it to the depths, you'll find great results. Good luck on your channel.
No they don't! If you put a gauge on that can & put it in the chamber, the pressure would get to a fraction of a PSI negative, the can would collapse, & then the pressure difference would go no higher. The can is supported from the inside by the Coke!
@@bpark10001 sure, an empty closed can will be failing easy. And yeah, a filled one isn't exactly a fair comparison. I just looked at it from the daily use perspective.
I don't get it. If the can is buoyant at the surface, it would never sink & get subject to the high pressure you apply, especially when thrown in sea water (did you use sea water in the test cylinder?). Shaking the can should have no effect as long as it has been equilibriated at temperature for a time. (The only thing shaking does is to speed the equibriation process. That applies whether the gas is going into or out of solution. Given that the can sinks, what difference would temperature (New York or Kuwait) make? That slightly changes density of sea water (& the Coke inside the can). From what I saw, given you MAKE the can sink, it makes NO DIFFERENCE because after the can collapses under the external force, the can becomes totally supported by the Coke inside to the extent that it is not plastically damaged going to ANY depth. Any gas pressure inside the can is INSIGNIFICANT compared to the sea pressure, all gas being driven into solution. What does this have to do with Gay Lussac's Law? As soon as the pressure goes up to a small fraction of the total, all gases "disappear" & you have a pure hydraulic liquid/liquid system.
@@TheDropzoneChannelI assume it was suppose to be "aerosol can" but it's fun to imagine nonetheless. Whipped cream can is also an interesting hypothesis...
The chamber water would enter the can, occupying the space that usually contains the soda gas charge. The can would return to original shape and stay that way as the chamber pressure is lowered. The CO2 would easily dissolve into the chamber water as pressure
Would be awesome to see super critical CO2 with various objects floating on the surface initially. After the super critical transition, I wonder if they would still float or sink?
Well if the Titanic had unopened coke cans onboard when it sank they would still be preserved today. remember Titanic lives at around 12,500 feet (3,800 meters) beneath the surface of the ocean.
water will expand when frozen breaking the can it's in water dose not compress very much so the can won't break just crush a little but a bottle won't crush a little it will implode.
Ive been on TH-cam since 2008. TH-cam gets millions of visitors everyday, A portion of those visitors are bots using fake accounts to sub (and unsub) channels. TH-cam will go thru a process called Correction when these bot accounts are found and purged. Thats why you noticed the subscriber count drop like a rock, and with his channel being relatively new its much more noticeable versus if you had over 100k subs. TH-cam is going thru another correction. Not people mass unsubbing but just more of TH-cam tracking down fake accounts and deleting them.
Also your knowledge and explanation of the science behind it is very well done. Only thing is you need to relax a bit more and be a bit more fluid in your speech. I know you know what you are talking about but when you explain the results, be more confident and assertive as to why those things happen. I know it's new to you but you need to OWN this because it is very good content.
Cool video. Perhaps some of the others wish you wouldnt be over the top with the jokes. Now that theyve made feelings felt by giving orders to you, if you value them, either way, if you are enjoying yourself thats all that matters in your individual-ness. I liked your jokes since im now buying into the perception that its up for debate by nsture now devaluing your video and by doing so your person. I can avoid that; my favorite was the guy coming out of nowhere
I did my best to take their commanding power away and offer respect of a human by seeing myself thru in everyone, I may have made a mistake by taking part in it. I think those people made a mistake
y question is (which cannot be answered by these tests) is if you did drop a can of Coke in the ocean, HOW deep would it sink? The density of the soda cannot be that different from the ocean water, and the Aluminum can is very light. So it wouldn't sink THAT deep in the ocean ...would it? Actually, I kind of want to see the OPPOSITE - How high of an altitude before the can of Coke explodes!
(20:16) Roflmao. It wanted revenge. Considering the depths that those cans reached, I wonder if the results change a little if you factor in temperature. While it doesn't reach freezing point at those depths, aluminum does get brittle when it gets cold...which is false apparently. After looking around the internet, it looks like aluminum remains ductile even when exposed to liquid nitrogen.
my question is, what part of new york/kuesit are we talking about? give me elevations. preferrably in sea level. your who wants to be a millionaire answers are bullshit and useless. as for the shaken coke, you should have included a vibration motor to continuously agitate it. life hack: a few flicks of the can gets rid of the explosion. you probably gave it that much just loading it into your contraption. not to mention all tie time it took to dive down there...
So smart that you negligently forget that after puncture the can there’s going to be a leak under higher than ambient pressure. Interesting chamber experiment. Total failure in post experiment internal pressure measurement safety and containment measures. LOL
Puncture = leak. True. If the can punctured at high pressure, the can would leak IN. The chamber fluid would enter the can without drama and the can would no longer be deformed due to fluid occupying the space in the can previously filled with gas. Being a low pressure CO2 charge in the can the gas would easily dissolve into the chamber water as it leaks into the can. The vessel pressure is well monitored. The can contents are nasty, but people drink it just fine... and often not so fine mixed with alcohol. Shame ya not smart enough to realise that, gun nut. Kinda make you look like a wanna be smart arse that has much more to learn.
Wow... A coke can survived going deeper than the Titan sub...
That's not surprising, it's filled with fluid, which is pretty damn hard to compress. The only reason it crunches in at all is because of the little bit of air gap in the can.
The real question on everyones mind is..... what does Abyssal depth coke taste like ?
It taste like a coke pressurized to 10,000+ psi, which gives it a bit of a sweet taste, then you black out.
I would imagine it has a depth of flavor the surface Coke doesn't.
Probably tastes like the real life version of the Pan Galactic Gargle Blaster....
I guess it depends on the smugglers diet and travel time
@@jasoncoates1835 I allege that it is TOTALLY UNAFFECTED by the pressure trip.
Love your videos, science with humour, and your deadpan delivery is great. Keep on making them just as they are.
As a diver, they did exactly as I thought they would. They'd crush down until all airspace was filled with liquid and then stay that way until pressure was removed.
As a none diver I thought exactly the same.
Meanwhile, people at my old job left coke cans in the freezer, and exploded in dramatic fashion, leaving a sticky slush on all exposed surfaces facing the cans.
water will expand when frozen breaking the can it's in
water dose not compress very much so the can won't break just crush a little but a bottle won't crush a little it will implode .
If you froze the can at depth, the coke would not freeze. Applying pressure lowers the freezing point. i did this experiment with water in a lecture bottle. It did not freeze at -18F. Upon opening the valve, water momentarily sprayed out, then it & the rest in the bottle instantly froze.
This is quickly becoming one of my favorite channels. I'm so glad to see it growing!!!
You actually make good quality content despite being new, good job and keep it up!
Thanks! I'm just winging it as I go...
LOL "oh sh1t", like we couldn't predict what was going to happen 😄
Ocean gate wouldve done better in a literal coke can than their carbon fiber monstrocity
Nope. They would have dies in SECONDS (without scuba gear) & MINUTES with it.
They didn't have water in the sub before imploding
Only if the people were coke 👍
How do you manage to get the pressure up in the chamber?
I assume you just pump more water in using a very thin/narrow pump, though the pump would need to have some extremely strong around the piston to stop water just going around the piston head, or tolerances so tight that water can't get around the piston head.
The other way would be compressing the container itself after filling it like a giant syringe, though again the tolerances and seals would need to be even stronger than those on a tiny piston that pumps in like 0.01ml of water per stroke.
I'm curious as to how the pumping and valve mechanism works and manages to hold water while not deforming and leaking.
You should make a video explaining how the thing works.
hydrostatic testing is generally done using a compressed gas that comes in a cylinder.
The gas is used to exert pressure on fluid that feeds the chamber. i.e. no gas enters the test vessel. If the vessel ruptures the gas pressure supply is shut down immediately and the fluid within doesn't catastrophically explode like it would if it was full of the gas. This way, the location of failure point is preserved for study.
The pressure exerted on the fluid can be multiplied using mechanical advantage.
I mean I don't know they work, but hydraulic pumps on common industrial requirement run at 3000 psi. So high pressure fluid pumps are not that hard to make.
Engagement comment to boost the channel
I like this format, but, "thrown off new york"? what does that mean
Temperature
To be more clear, the temperature of the water in the ocean nearest to each location.
I feel like this channel is going to blow up one day.
You mean blow in?
How many lives would have been saved had Oceangate used the revolutionary coke can hull technology...
None. They would have died sooner, but the craft could have remained totally intact, given if it were buoyant enough to ascend (loaded with a LOT of deep sea foam). In fact, this technology is used in deep sea equipment. There is a thicker hull with an oil fill, but there is a "pressure compensating bellows" that like the Coke can, makes the stress on the hull almost zero.
@@bpark10001why would they die in a craft that remained intact. They'd just need scuba gear to survive inside all the coca cola
@@SoulDelSol The human body can survive (with special gas mixes) at about 1000 feet (~300 meters) depth MAXIMUM. This is about 30 atmospheres. (It requires over a MONTH to slowly compress & decompress from these depths safely.) The hull of the Titan (& other deep-sea submersibles) have to withstand the pressure of the sea (on the order of 7000 pounds per square inch, about 500 atmospheres pressure) so the people inside don't have to.
If you can figure out how to survive at 500 atmospheres pressure while submerged in Coke, then the "Coke can" hull concept will work. The rest of us will stick to thick titanium hulls for our undersea craft.
The whole reason the Coke can survives undamaged is because in essence, the can does nothing, other then keep the Coke from mixing with the sea water. Otherwise, it is as if the can had a hole in it, passing the pressure from the outside to the inside.
@@SoulDelSol Nope. Humans can survive up to 30 atmospheres MAXIMUM. Titan went to 500 atmospheres. The compressed air in the scuba tanks would not even come out because the pressure outside is greater than that.
Legit question here: How does this chamber work? If liquids are incompressible how is it able to raise the pressure of the liquid inside of it?
Liquids are NOT incompressibile. This is a simplification we use in day to day life because the compression is too tiny to matter in most circumstances. Even at peak depth of this chamber (around 5000 meters), the water has only compressed about 1% in volume.
The same is true for solids, by the way - but they're even less compressibile than liquids. One example of compressing solids is actually atomic bombs. A sphere of radioactive material is surrounded by powerful conventional explosives. The explosives compress the radioactive material JUST ENOUGH to cause it to "go critical".
That said, nothing needs to be compressibile to have pressure. Just look at the plumbing in your house. Water is coming out under pressure because a pump is pushing it out. This chamber just has a REALLY powerful pump.
@@PsRohrbaugh Hey dude, thanks for your reply!
Very nice video, Thank you for making it.
Gay-Lussac's law can also be derived using the ideal gas law because everything except the pressure and temperature of equal masses of gas cancel out.
Gay-Lussac's law has NOTHING TO DO with this exercise. As soon as the pressure went up (to a few atmospheres), THERE WAS NO GAS (it all became dissolved in the liquid).
I would be interested to see the same can descend and surface, and see if it deforms in the same place and how many dives would it take before a stress failure?
I wonder at what depth would the density of water would match that of the coke can? Would it ever sink until they match and it would just float at that depth?
Interesting question!
Wtf did I just turn on? Who wants to be a coke addict millionaire? 😂😂😂 holy fuck I'll sub
You should test a bag os chips next to see if the pressure will crush the chips!
At what pressure does air become liquid ?
Does liquid air mix with water ?
We could see it with an unclosed glass bottle placed upside down.
I love these videos. It is great to see what would happen in the deepest parts of the ocean. Pressure proof cases, like Pelican cases, have a depth limit. It would be nice to see how far beyond their maximum depth they could withstand. Also, you could re-run this test with plastic Coke bottles. Also, what would happen to wood, fruits, vegetables at those depths? Leather, like boots and shoes? What would happen to uncooked pasta in water at these pressures?
Will do... I'll probably do a plastic vs glass coke bottle episode.
And small pelicans
@@TheDropzoneChannelHi I would like to see you put one of those small gas cylinders that fizz up drinks into your pressure chamber. Or to put a sausage into some sort of capsule and see what happens when it implodes. Love your channel 👍
How far can didn't types of lightbulbs go without imploding? Lightbulbs like HPS, MH, Halogen, and traditional lamp bulbs, I don't think the modern leds are going to be very interesting.
What does it mean when you say "Dropped off New York" or "Dropped off Kuwait?"
What I think he meant was dropped off in the waters of New York or waters of Kuwait, since the surface water temperature is different
No idea
And who is neymer jr? Sounds like an nba player name?
Hey my suggest from your 2nd video!
I was seriously surprised how far the cans made it.
Oh and I was expecting just 5-8k feet
I didn't get the chance to google Neymar Jnr...
I'm new to this type of content. I like your style of testing objects in deep water. I haven't seen stuff like this before. I hope your channel blows up and doesn't (implode). Many years ago I saw the effects of deep sea depths and Styrofoam cups. You should do that on a video soon. If you can or know someone who can put some artwork onto the outside of a Styrofoam cup, put it to the depths, you'll find great results. Good luck on your channel.
It seems cans deal much better with outside pressure than inside
No they don't! If you put a gauge on that can & put it in the chamber, the pressure would get to a fraction of a PSI negative, the can would collapse, & then the pressure difference would go no higher. The can is supported from the inside by the Coke!
@@bpark10001 sure, an empty closed can will be failing easy. And yeah, a filled one isn't exactly a fair comparison.
I just looked at it from the daily use perspective.
Does the co2 reach the pressure needed to turn it to a liquid?
Yes... good point.
i dont think the surface temps matter at all, as it's way deeper than the variable surface temps when the "magic" starts happening.
that's a fantastic method to unshake cola quickly!
I don't get it. If the can is buoyant at the surface, it would never sink & get subject to the high pressure you apply, especially when thrown in sea water (did you use sea water in the test cylinder?). Shaking the can should have no effect as long as it has been equilibriated at temperature for a time. (The only thing shaking does is to speed the equibriation process. That applies whether the gas is going into or out of solution.
Given that the can sinks, what difference would temperature (New York or Kuwait) make? That slightly changes density of sea water (& the Coke inside the can). From what I saw, given you MAKE the can sink, it makes NO DIFFERENCE because after the can collapses under the external force, the can becomes totally supported by the Coke inside to the extent that it is not plastically damaged going to ANY depth. Any gas pressure inside the can is INSIGNIFICANT compared to the sea pressure, all gas being driven into solution.
What does this have to do with Gay Lussac's Law? As soon as the pressure goes up to a small fraction of the total, all gases "disappear" & you have a pure hydraulic liquid/liquid system.
What's the difference between Cokes thrown off of Kuwait and Cokes thrown off New York?
Ah it's the difference between sea level at the respective locations
That was great 😂 coke spraying all over😅 loved it🎉
Super fun to watch, thanks!
Will coke can survive deep space?
Very interesting!
That was interesting. What would happen if you tried a arousal can, such as bug spray or spray paint? Paint would be messy .
"Arousal can" conjures up a trove of amazing mental imagery...😅
I think he means a can of whipped cream... which I could test.
@@TheDropzoneChanneli think he means bug paint
@@TheDropzoneChannelI assume it was suppose to be "aerosol can" but it's fun to imagine nonetheless. Whipped cream can is also an interesting hypothesis...
I don't think it was a typo... Different strokes for different folks. I think we just found our next episode. @@jasoncoates1835
Alright, but what if you intentionally opened it in the abyssal zone?
The pressure chamber would explode
I assume you mean the Coke can? Absolutely nothing, other then the Coke quietly running out & mixing with the sea water.
@@bpark10001 And the soda wouldn't be fizzy.
The chamber water would enter the can, occupying the space that usually contains the soda gas charge. The can would return to original shape and stay that way as the chamber pressure is lowered.
The CO2 would easily dissolve into the chamber water as pressure
You need a pressure chamber that fan do 15,000-20,000psi.
That's the next step if the channel takes off...
@@TheDropzoneChannel That would be awesome. I want to see that. I bet that's not cheap though.
Would be awesome to see super critical CO2 with various objects floating on the surface initially. After the super critical transition, I wonder if they would still float or sink?
There is video of thick clear plastic chamber with supercritical CO2.
th-cam.com/video/JslxPjrMzqY/w-d-xo.html
Well if the Titanic had unopened coke cans onboard when it sank they would still be preserved today. remember Titanic lives at around 12,500 feet (3,800 meters) beneath the surface of the ocean.
water will expand when frozen breaking the can it's in
water dose not compress very much so the can won't break just crush a little but a bottle won't crush a little it will implode.
So was Neymar representing a sewage discharge pipe?
I think that's where he dived in...
@@TheDropzoneChannel Yes, a bit more diplomatic than my thoughts.
Will someone PLEASE edit in someone dropping a Coke into the ocean and a Mean Joe Greene Jersey floating up to the surface a few seconds later!!!!!
Not too many viewers will get that reference.
@@jbrou123 Nope.. They sure wont.
@@lknanmlKinda hard to believe that was 45 years ago.
m.th-cam.com/video/xffOCZYX6F8/w-d-xo.html
@@jbrou123 Kinda hard to believe I am old enough to have seen it on TV..... LOL
Who is “Neymar Jr”?
He's a professional diver.
Given that water is incompressible what’s the mechanism of the deep sea pressure chamber?
It's a pressure vessel that has a pressure applied.... the same way it is filled with water prior to pressure applied.
You should do a mason jar!
I'll add it to the list. Thanks!
love this video!
Why did everyone unsubscribe?! It went to 12k to 4k!
Ive been on TH-cam since 2008. TH-cam gets millions of visitors everyday, A portion of those visitors are bots using fake accounts to sub (and unsub) channels. TH-cam will go thru a process called Correction when these bot accounts are found and purged. Thats why you noticed the subscriber count drop like a rock, and with his channel being relatively new its much more noticeable versus if you had over 100k subs. TH-cam is going thru another correction. Not people mass unsubbing but just more of TH-cam tracking down fake accounts and deleting them.
Also your knowledge and explanation of the science behind it is very well done. Only thing is you need to relax a bit more and be a bit more fluid in your speech. I know you know what you are talking about but when you explain the results, be more confident and assertive as to why those things happen. I know it's new to you but you need to OWN this because it is very good content.
All my friends are dead
Awsome
Cool video. Perhaps some of the others wish you wouldnt be over the top with the jokes. Now that theyve made feelings felt by giving orders to you, if you value them, either way, if you are enjoying yourself thats all that matters in your individual-ness. I liked your jokes since im now buying into the perception that its up for debate by nsture now devaluing your video and by doing so your person. I can avoid that; my favorite was the guy coming out of nowhere
I did my best to take their commanding power away and offer respect of a human by seeing myself thru in everyone, I may have made a mistake by taking part in it.
I think those people made a mistake
It's actually Guy Lussac and not gay
y question is (which cannot be answered by these tests) is if you did drop a can of Coke in the ocean, HOW deep would it sink? The density of the soda cannot be that different from the ocean water, and the Aluminum can is very light. So it wouldn't sink THAT deep in the ocean ...would it? Actually, I kind of want to see the OPPOSITE - How high of an altitude before the can of Coke explodes!
Promo*SM
S C I E N C E
👍🐿😎
(20:16) Roflmao. It wanted revenge.
Considering the depths that those cans reached, I wonder if the results change a little if you factor in temperature. While it doesn't reach freezing point at those depths, aluminum does get brittle when it gets cold...which is false apparently. After looking around the internet, it looks like aluminum remains ductile even when exposed to liquid nitrogen.
😂
my question is, what part of new york/kuesit are we talking about? give me elevations. preferrably in sea level. your who wants to be a millionaire answers are bullshit and useless.
as for the shaken coke, you should have included a vibration motor to continuously agitate it. life hack: a few flicks of the can gets rid of the explosion. you probably gave it that much just loading it into your contraption. not to mention all tie time it took to dive down there...
Salinity is higher in the Persian Gulf and the Red Sea. The higher density of the water would have made the can compress at a lower depth.
..but also made the can float which means it would not experience the pressure at all.
The can would deform at less depth then.
Neymar Jr, I choose you!!n
They float.
So smart that you negligently forget that after puncture the can there’s going to be a leak under higher than ambient pressure.
Interesting chamber experiment. Total failure in post experiment internal pressure measurement safety and containment measures.
LOL
I've read your comment several times and your syntax is so corrupted I haven't a f clue what your trying to say. Lay off the hooch.
Puncture = leak. True.
If the can punctured at high pressure, the can would leak IN. The chamber fluid would enter the can without drama and the can would no longer be deformed due to fluid occupying the space in the can previously filled with gas. Being a low pressure CO2 charge in the can the gas would easily dissolve into the chamber water as it leaks into the can.
The vessel pressure is well monitored.
The can contents are nasty, but people drink it just fine... and often not so fine mixed with alcohol.
Shame ya not smart enough to realise that, gun nut.
Kinda make you look like a wanna be smart arse that has much more to learn.
Have problems with your hemorrhoids? 🤣
not me.. lol
Dude, cut the gimmicks. Your content is great without them 👍
wow.... you must be entertaining at parties..............
Science is and has always been fun.... never hurts to keep people entertained.....
I second that. Author's original format with its calm presentation was almost therapeutically medidative while also being informative.
What are you, the fun police? Make your own content if you think you can do it better