Honestly I just wanted to see how he pulled it off lol we all know this was a hit click baitey, but, let's also remember someone out there is still learning, let them digest the softer foods until they have cut teeth.
What, is he going to make a five second video with asimple answer? Lol. It's about why nothing would happen. If you didn't want to learn, you didn't have to watch. 🙄
This video in a nutshell: Drop a steel ball into the Mariana Trench and it will sink in about 12 minutes, then over the years bacteria will oxidize it and it will break down into the silt. Throw a 15lb bowling ball in and it will sink in around 2 hr 20 min. It won't break down because its plastic, rubber and ceramic. There, now you know what you already kind of knew
@@cloudambienti ended up at Byford Dolphin implosion accident. Very brutal and yet it was only at 460 meters depth. The titan at Titanic was then likely far more ruthless
“If you’re a fish, you probably wouldn’t try to figure out how the pressure in the trench is affecting the steel ball” this is amazing insight! So true.
Whats inside black hole (explanation) th-cam.com/video/7hx77WsQJ-A/w-d-xo.html Inner Earth Civilizations Exist and I Can Prove It Agartha & Hollow Earth (Reupload) th-cam.com/video/Xhd6vdhBtFE/w-d-xo.html
I’ve actually sailed over the deepest part of the Mariana Trench when I was in the navy. I tossed a quarter in. I wonder what it looks like after almost 20 years??
1000 years from now; a family on vacation in their personal submarine at the bottom of the Mariana Trench: _"What are all these bowling balls doing here?"_
Whats inside black hole (explanation) th-cam.com/video/7hx77WsQJ-A/w-d-xo.html Inner Earth Civilizations Exist and I Can Prove It Agartha & Hollow Earth (Reupload) th-cam.com/video/Xhd6vdhBtFE/w-d-xo.html ;)
I'm not bored with formulae. I want to know how you figured out the fall times. I also want to know what would actually happen to a steel ball dropped into the trench. I was, however, astounded to learn that the fish and other creatures in the depths would not wonder about the math...
It would be an approximation and not take into account thinks like buoyancy or stokes law which could impact time. But the best approach for ease of approximation would be to calculate the terminal velocity of the object in water: Vt=Sqrt(2mg/pACd) where Vt is the terminal velocity m is the objects mass g is the acceleration due to gravity Cd is the drag coefficient p is the fluid density A is the projection for area of the object Then Time to reach max depth in minutes is equal to: (Depth/Vt)/60 If you want the more complex version with buoyancy let me know and I’ll add it in
Unless talking about a dense metal bowling ball, The first bowling ball made of plastics and other various materials would never make it to the bottom before being crushed by the weight of the water.
considering the density of water at the bottom of the trench, is there any possibility any of the balls would reach equilibrium before they reach the bottom.?
@@scottmcshannon6821 highly doubtful. We are talking about thousands of pounds of pressure. The slightest imperfection or occlusion in material would be a weak point. Not that it would matter. Put a bowling ball in a hydraulic press and see what happens, and that is only a fraction of the total pressure it would see at the bottom of the trench.
Look, maybe the angelfish was imagining it was a deep sea fish? I am nervous about this adding the word "fish" to the name of a fish. The fish is already a fish. Consider, for example, a tuna fish sandwich. Is there some other kind of tuna they haven't told us about? The tuna bird? The land tuna? The mountain tuna? Seriously. Why does it have to be called a tuna fish sandwich? I already know a tuna is a fish, for s***s sake. Then there the comedian who had a routine about the Malibu chicken. Is this a special kind of chicken that grows it own layer of cheese? I'm confused.
@@anonymike8280 Of course we call it a tuna fish sandwich. They don't call a sandwich with chicken in it a chicken sandwich do they? Who knows it's not some weird sea chicken in there rather than the bird kind. It's only proper.
Am I the only one that would love to be "bored" by the details of how he calculated the terminal velocity of the steel ball descending through the water? I'm sure it would be extremely enlightening...
"Imagine that you are a deep sea fish and a steel ball floats past you. It is unlikely that you would even try to figure out how pressure affects it." What the hell am I watching? UPDATE: I think many people misinterpreted this initial comment. The main source of my confusion is not that the fish would think about balls. I am fine with this. Fish may indeed think about balls. It is the use of the word "even". It implies that the fish OUGHT to be thinking of things that are MORE COMPLEX than the effect of pressure on steel balls. For example: "She didn't EVEN send a birthday card" implies you were expecting MORE than a card. So what does Ridddle really expect this fish OUGHT to be thinking about?!?!
OK, for anyone who really cares: I looked up Stokes' Law, which governs sinking rates, and the formula for the volume of a sphere: Stokes' Law: Fd = 6πµRv where: Fd = dynamic drag (friction) π = "pi" = 3.14159... µ = viscosity R = radius v = flow velocity (sinking rate) We know that at terminal velocity, Fd = Fg (force of gravity) Fg = mg where m = mass g = acceleration of gravity And the mass of a sphere is volume x density, or: [(4/3)πR^3][ρ] where R^3 = radius raised to the 3rd power ρ = density This means that Fg = [(4/3)πR^3][ρ][g] and since Fd = Fg 6πµRv = [(4/3)πR^3][ρ][g] Since we want the effect of radius on sinking speed, let's get everything that's NOT "v" on the right side by dividing both sides by 6πµR: [(4/3)πR^3][ρ][g] v = ----------------------------------- 6πµR A lot of terms cancel out or are constant for the Earth: π is in the denominator and numerator, so disappears, g is the same everywhere, 4/3 / 6 = 2/9, ρ (density, remember?) is the same if we use the same material for different sized balls, and R^3 / R = R^2 (R squared), and µ (viscosity) is constant for water at a given temperature. So this equation simplifies to: 2gρ v = --------------- R^2 9µ Since 2gρ/9µ is a constant value (as long as we stay in the same place and use the same materials for all balls), this means that the larger the ball's radius, the faster the sinking rate. Probably more than anyone wanted to see, but I'm a nerd. What can I say. And this is the conclusive answer to whether or not the large balls (if they're steel or even iron) sink faster than the small one.
After reading the comments and listening to about half of this dribble I'm tapping out before I fall asleep. I guess I'll never find out what happens to a steel ball in the Mariana trench.
Whats inside black hole (explanation) th-cam.com/video/7hx77WsQJ-A/w-d-xo.html Inner Earth Civilizations Exist and I Can Prove It Agartha & Hollow Earth (Reupload) th-cam.com/video/Xhd6vdhBtFE/w-d-xo.html ;)
It takes 12 minutes for the ball to reach the bottom. There. Now you don't have to watch a 10 min video out of which most of the time is a waste. (I wrote this comment before the 'Most Replayed' feature was added)
I think it is a lot more complex that the explanation here. Compressibility should be a factor. As pointed out in the video, metals will have negligible compressibility......but a bowling ball should crush a lot more as there is a lot more air in its mix. That will cause it to become more dense and slowly pick up speed as it descends, shouldn't it? An easy example.....in a swimming pool with a deep end (18+ feet deep), you can float on the surface. But swim down to the bottom and you may actually be able to stay there without flowing up because you have been slightly compressed by water pressure. If you scuba dive, you can see the affect even more easily.
intresting points, but I think there's some misconceptions here. First off, the compression of a human body in water is quite diffrent from the compression of a solid object like a steel ball or even a bowling ball. Our bodies are largely made of water and are, therefore, not very compressible, but we still notice a pressure change when diving because our air-filled spaces (like ears and lungs) are compressible and we're sensitive to pressure changes in these areas. Now, when we talk about bowling balls or steel balls sinking, it's more about density than compressibility... yes, bowling balls have air in them, but the overall volume won't change too much under the pressure at the bottom of the Mariana Trench. The pressure there is about 1086 bars, which is A LOT, but not enough to compress solid materials significantly. Think about it, metals are dense and hard, that's why we use them in construction, and the material a bowling ball is made from, is also engineered to withstand significant stress. So, the increase in density due to compression would be minimal, not enough to make the bowling ball speed up as it sinks. And let's not forget buoyancy... the ball would have to displace an amount of water equal to its own weight to continue sinking. That's why objects float or sink in the first place. So, the speed of descent wouldn't be majorly influenced by the compression, but rather the weight and shape of the object, the fluid dynamics, and the buoyancy force. Hope this clears things up a bit! 👍🙂
Ive been fortunate enough to have been working on a ship that crossed over the mariana trench. The color of the water over that deep of ocean literally messes with your mind. Its perfect;y clear yet the deeper you look it gets darker and darker blue. We were allowed to toss food waste overboard and i accidentally dropped a #10 can in the water. I was amazed how long i was able see it sink. The metal reflected the suns light until it looked like the faintest star in the night sky. Ill never forget that.
'I'm going to conduct my own scientific research' 'Imagine you're a fish and a steel ball floats past you, it's unlikely you'll try to figure out how pressure affects it..' 🤣
1: Under pressure, compressible substances compress until their internal pressure is the same as the external. A human, for instance will not be "crushed" or "torn to pieces". Death is certain, but as soon as cavities containing air, like the lungs, has been compacted to almost nothing, nothing else will happen. The internal pressure of skin, fat, muscles, fluids, bones will become the same as the external pressure with very little compression. That's also how the fish living at these depths handle it. They don't feel the pressure any more than you feel the substantial atmospheric pressure around you. (continued. expand text) 2: "In order to change the shape of steel" it takes a Force! Not pressure! Pressure will never change the shape of steel, not even more than "108.6 MPa", (which btw happens to be close enough to the pressure in the challenger deep). 3: How fast a solid steel ball falls through water, when it has achieved "terminal speed", depends upon its size. For it to achieve a terminal velocity of "15 m/s" (which is very fast, btw, VROOOOM, 33.55 Mph), it would have to be 1.208 m in diameter and weigh 7.293 metric tonnes. A steel ball with a diameter of an inch, otoh, would get a terminal speed of about 2.17 m/s, and ball bearing steel ball with a diameter of 5 mm will get a terminal velocity of about 0.97 m/s.
Just for clarification, since you seem to know what you're talking about, could you answer me a question, please. He mentioned that the density of the water changes with the pressure, although the compressability of water is fairly low, wouldn't that impact the terminal velocity of the ball instead of it having a constant rate of descent?
@@sIDsleeper Yes. As would temperature and salinity. The variation would be 'small but significant'. Meaning that it doesn't change the understanding of what will happen, but if you rely on data from an involved method to - for example measure the depth - it will affect the results. The volume change at the bottom of the Challenger deep is rather small, I think around 4% - didn't the video say that too? -. But I won't go into it for accuracy, because the compressibility of water becomes a bit complex at such high pressures and don't follow the standard formulas. 4% volume reduction would be 4.2% increased density, which would reduce terminal velocity by 2%. So instead of 15 m/s, that giant steel ball will hit the bottom with 14.7 m/s. 4: The challenge for life to adapt to great depths and pressures, isn't structural, but the fact that pressure affects chemical reactions, including biochemical reactions. This is why we shouldn't expect human divers to be able to go much deeper, even if we remove breathing gases by some technology.
@@CheetahNL you be dead it's 8 tons PSI or 17,000lbs PSI ABSOLUTELY CRUSHING down there. Imagine you in a robot suit and a pin hole is in your foot. Your whole body will be in your helmet.
The best description I saw on something like this was one of those mini subs that can go to great depths. They took down a polystyrene cup that was normal cup size, but when they came back up, it was still cup shaped, but it was getting near to a thimble size which I could see with my own eyes. now that was impressive.
When you’re running out of content ideas so you quickly throw this video together, and you need to hit 10 minutes for ad revenue but don’t have much to offer to your viewers...
*at work tomorrow* Co-workers: heard it's supposed to snow tomorrow. Me: A bowling ball made of gold would hit the floor of the Mariana trench in 17 minutes.
I was hoping he would elaborate more on the game of bowling, how these holed balls came to be, how their bright colors might also not make a dang difference at the bottom of the ocean, but instead I was left with this too short explanation, which could have been explored much further.
@@simonmasters3295 Your question is so generalised that I am spoilt for choice for an answer. Maybe you should start with the basics and ask one question at a time and I may answer it. May I remind you that more than one question equates to you failing in a simple task. Good luck clever clogs. DBM. England 🏴
If a steel ball is hallow then it would either implode or be smashed flatter than a quarter but if the steel ball is solid nothing would happen to it…except being buried when it impacts the sea floor
That’s really cool, I used to work for an oilfield company up in northern Alberta Canada and we were fishing or wireline. We had a tool that we would drop down the well and our line was a quarter inch stainless steel solid line and the wells are 4000 m deep and it would take us 45 minutes just a freefall our tools down to where we needed them. It was usually to set a plug or to get a plug out of the well
I’ll save you some time. Nothing happens to the Steel ball. At most it shrinks, but it’s so minor you can’t tell visually, and when it resurfaces, it expands back to original size.
very impressive that you stretched a simple answer called "literally nothing" up to 10 min....
It’s always like this unfortunately
Poor baby
You learn about pressure tho didnt you?
Honestly I just wanted to see how he pulled it off lol we all know this was a hit click baitey, but, let's also remember someone out there is still learning, let them digest the softer foods until they have cut teeth.
What, is he going to make a five second video with asimple answer? Lol. It's about why nothing would happen. If you didn't want to learn, you didn't have to watch. 🙄
That one kid who writes a thesis for a 1 mark question.
The teacher who demands it.
🤣🤣🤣
Lmao
Lol
Hahahaha
Who watching this after the
Titan vessel, went missing
When you're trying to hit the word count on your English assignment:
Ad revenue.
This is so true 😂
🤣🤣🤣
underrated comment!
#Factmama
The answer is nothing.
Here, I saved your 10minutes
Thank you mate. I knew that the video was too long to explain something simple. That's why I came to read the comments first
Thanks......
at what minute he say it?
thanks, mate...
@@souvik492 welcome
This video in a nutshell:
Drop a steel ball into the Mariana Trench and it will sink in about 12 minutes, then over the years bacteria will oxidize it and it will break down into the silt.
Throw a 15lb bowling ball in and it will sink in around 2 hr 20 min. It won't break down because its plastic, rubber and ceramic.
There, now you know what you already kind of knew
Thanks lol
ocean gate
@@nassenn Yup, that's probably why most people are ending up on this video lol
This was actually done. The footage is in david Attenborough's documentary from memory. It's impressive to see
@@cloudambienti ended up at Byford Dolphin implosion accident. Very brutal and yet it was only at 460 meters depth. The titan at Titanic was then likely far more ruthless
"Few are ready to live in darkness, cold, and under tremendous pressure." My life
🤣🤣🤣
*WAKE ME UP*
“If you’re a fish, you probably wouldn’t try to figure out how the pressure in the trench is affecting the steel ball” this is amazing insight! So true.
After watching this video, I wish he was a fish.
Better luck next time . 4.5 for attempting joke
lmao at that part
No i was literally dying laughing when he said that like bro what 😭😭
@@vincentwade6338Lol u will get eaten
"What If You Throw a Steel Ball into the Mariana Trench"
Steel ball will sink and nothing will happen. The end.
LIES!!!!!!!!
You might think so, but what if it hits the Kraken? What if it awakens Cthulhu?
@@mtgradwell and what if it hits shrek
Thank you
@@JuShen Better make peace with your god
"I won't bore you with formulas"
No, you'll just bore us with 6 minutes of pointless buildup instead
Next video:
"Now... What If You Throw a LEAD Ball into the Mariana Trench..."
Reth Tard Answer u would get cancer before u even got to throw it
Looking for this comment.😂😂😂😂👍👍
Whats inside black hole (explanation)
th-cam.com/video/7hx77WsQJ-A/w-d-xo.html
Inner Earth Civilizations Exist and I Can Prove It Agartha & Hollow Earth (Reupload)
th-cam.com/video/Xhd6vdhBtFE/w-d-xo.html
Then why are you here
This video was basically me stretching out my dissertation from 500 words to 15,000
Guy mentions a tennis ball at first and goes "no, something more impressive, a bowling ball" hahaha.
I’ve actually sailed over the deepest part of the Mariana Trench when I was in the navy. I tossed a quarter in. I wonder what it looks like after almost 20 years??
probably stuck in a thermoclime at around 17,000 feet.
Like an eighth, I suppose :-)
Go for a quick snorkel
Depends on inflation.
@@Sydneywizard lmaooooo
Long story short: It sinks.
just like the analytics of this video.
@@tracyh5751 Hahaha
Lol the best answer so far
I bet the folks who still believe the Earth is flat will disagree with that.
0:41 " I wouldn't recommend doing this"
I was just about to drop a steel ball into the Mariana trench. Such a Party pooper.
I was thinking it would do some geological dammage or something, but no just littering...
Ikr like wtf? He called it “littering” BS lol
i was about to drop a nuclear bomb in there, thank god he told me not to
@@localeboy808 it is littering
Titan brought me here…
Kyle Kulinski/Secular Talk mentioned the experiment while discussing the Titan tragedy.
Bro tbh you are seeing every vdo of ocean depth and seeing the comment actually I'm doing that 😅
I've always wondered if the fish are down there on their writing pad doing all these complex calculations, so thanks for clearing that up 🤔
Yes there are Fish there
It takes two of them to work out the heavy math, one to hold the slide rule, the other to move the index.
This was the most oddly written script. Almost like someone who doesn’t speak english wrote it and hired a native speaker to read it aloud
A L I E N S
I was thinking the same thing
I was searching the comments to see if it was just me or other people had that feeling.
Because portions were awkwardly added in to get to the 10 minute mark
yeah "own research" my ass
Me: * Clicks This Video *
Me: * Me Reads The Comments *
Me: Ohhh youuuuu you almost got meeee
Love the comment keep it up lol
perfect
The comments are the best here!! ;D
😂😂😂😂
same
What would happen to a Logitech game controller?
1000 years from now; a family on vacation in their personal submarine at the bottom of the Mariana Trench: _"What are all these bowling balls doing here?"_
Aliens
"Littering the Mariana Trench with steel balls isn't a good idea, and I wouldn't recommend doing it."
Well dammit there go my summer plans
Whats inside black hole (explanation)
th-cam.com/video/7hx77WsQJ-A/w-d-xo.html
Inner Earth Civilizations Exist and I Can Prove It Agartha & Hollow Earth (Reupload)
th-cam.com/video/Xhd6vdhBtFE/w-d-xo.html ;)
Hey bruh!!! Watsupp
Yeah is if getting a steel ball and going to Mariana trench just to drop it is in my to do list..😂
what a stupid comment 🤦♂️
@@Mohawks_and_Tomahawks 300 people liked it, it’s a joke chill out
Theoretically speaking, Up yours Homie.
Bro I was looking at this comment while watching it and it was perfect timing as hell dude😂
F-ing Amen, bro!
Lmao the thought of this trench is still pretty terrifying tho.
I'm not bored with formulae. I want to know how you figured out the fall times. I also want to know what would actually happen to a steel ball dropped into the trench. I was, however, astounded to learn that the fish and other creatures in the depths would not wonder about the math...
How do you know those fish don’t care about the math? Fish love math ask anybody..
@@_007Bas a fish I truly appreciate your inclusion of us
@@thekingofgamers3350 your username isnt even fish related, trash joke dummy
@@_007B Thats why fish go to the best schools, to learn maths.....
It would be an approximation and not take into account thinks like buoyancy or stokes law which could impact time. But the best approach for ease of approximation would be to calculate the terminal velocity of the object in water:
Vt=Sqrt(2mg/pACd) where Vt is the terminal velocity
m is the objects mass
g is the acceleration due to gravity
Cd is the drag coefficient
p is the fluid density
A is the projection for area of the object
Then Time to reach max depth in minutes is equal to:
(Depth/Vt)/60
If you want the more complex version with buoyancy let me know and I’ll add it in
Unless talking about a dense metal bowling ball, The first bowling ball made of plastics and other various materials would never make it to the bottom before being crushed by the weight of the water.
considering the density of water at the bottom of the trench, is there any possibility any of the balls would reach equilibrium before they reach the bottom.?
@@scottmcshannon6821 highly doubtful. We are talking about thousands of pounds of pressure. The slightest imperfection or occlusion in material would be a weak point. Not that it would matter. Put a bowling ball in a hydraulic press and see what happens, and that is only a fraction of the total pressure it would see at the bottom of the trench.
“Imagine you’re a deep sea fish.” Shows a freshwater angelfish.
Look, maybe the angelfish was imagining it was a deep sea fish? I am nervous about this adding the word "fish" to the name of a fish. The fish is already a fish. Consider, for example, a tuna fish sandwich. Is there some other kind of tuna they haven't told us about? The tuna bird? The land tuna? The mountain tuna? Seriously. Why does it have to be called a tuna fish sandwich? I already know a tuna is a fish, for s***s sake.
Then there the comedian who had a routine about the Malibu chicken. Is this a special kind of chicken that grows it own layer of cheese? I'm confused.
@@anonymike8280 you're making really good points
@@anonymike8280 Of course we call it a tuna fish sandwich. They don't call a sandwich with chicken in it a chicken sandwich do they? Who knows it's not some weird sea chicken in there rather than the bird kind. It's only proper.
Yeah I noticed that too 😂 I was like that’s fish is in my aquarium lol
That gave me a really good laugh. Thank you
Riddle: you can see the mariana trench without google using a satellite
A few seconds later
“Uses google”
I think he meant to say 'with Google'
my thoughts exacty, lmao
It's not even a satellite image. It's a topographic map. This channel is so dumb.
Am I the only one that would love to be "bored" by the details of how he calculated the terminal velocity of the steel ball descending through the water? I'm sure it would be extremely enlightening...
no, you're not
Another one interested
Same here
Yep. Indeed it would be.
Googled it for sure
You’re here cause you heard about the submarine
"Imagine that you are a deep sea fish and a steel ball floats past you. It is unlikely that you would even try to figure out how pressure affects it."
What the hell am I watching?
UPDATE:
I think many people misinterpreted this initial comment. The main source of my confusion is not that the fish would think about balls. I am fine with this. Fish may indeed think about balls. It is the use of the word "even". It implies that the fish OUGHT to be thinking of things that are MORE COMPLEX than the effect of pressure on steel balls. For example: "She didn't EVEN send a birthday card" implies you were expecting MORE than a card. So what does Ridddle really expect this fish OUGHT to be thinking about?!?!
😂😂😂😂😂😂😂😂😂😂😂
Ridddle being Ridddle at his finest
Lmao
Lol came her for this I couldn't be the only one!
Realistically the fish would be blind due to no light being able to be seen in that dept.
Fish use ecolocation
~das jus my theory tho
When you're desperate to reach that 10 minute goal.
Wow tell me about it. I felt myself losing brain cells watching this. What a let down.
@R K. :0:'(
Blame TH-cam and the silly rules surrounding monetization for that. Otherwise, content stretching wouldn't be such an issue.
You simply made my day😆😆😆😆😆😁😁😁😁😁😁😁😅😅😅
OK, for anyone who really cares:
I looked up Stokes' Law, which governs sinking rates, and the formula for the volume of a sphere:
Stokes' Law: Fd = 6πµRv
where: Fd = dynamic drag (friction)
π = "pi" = 3.14159...
µ = viscosity
R = radius
v = flow velocity (sinking rate)
We know that at terminal velocity, Fd = Fg (force of gravity)
Fg = mg
where m = mass
g = acceleration of gravity
And the mass of a sphere is volume x density, or:
[(4/3)πR^3][ρ]
where R^3 = radius raised to the 3rd power
ρ = density
This means that
Fg = [(4/3)πR^3][ρ][g]
and since Fd = Fg
6πµRv = [(4/3)πR^3][ρ][g]
Since we want the effect of radius on sinking speed, let's get everything that's NOT "v" on the right side by dividing both sides by 6πµR:
[(4/3)πR^3][ρ][g]
v = -----------------------------------
6πµR
A lot of terms cancel out or are constant for the Earth: π is in the denominator and numerator, so disappears, g is the same everywhere, 4/3 / 6 = 2/9, ρ (density, remember?) is the same if we use the same material for different sized balls, and R^3 / R = R^2 (R squared), and µ (viscosity) is constant for water at a given temperature. So this equation simplifies to:
2gρ
v = --------------- R^2
9µ
Since 2gρ/9µ is a constant value (as long as we stay in the same place and use the same materials for all balls), this means that the larger the ball's radius, the faster the sinking rate.
Probably more than anyone wanted to see, but I'm a nerd. What can I say. And this is the conclusive answer to whether or not the large balls (if they're steel or even iron) sink faster than the small one.
Dude. I need to lie down after reading this.
Thanks a lot for doing everything in meters and also in miles greatly appreciated it makes me enjoy the video even more thank you
"What If You Throw a Steel Ball into the Mariana Trench"
Talks about everything else for almost the entire video.
Can u give me hair tips
@@arslaanpasha3334 Yeah. Cut your hair hippie!
@@budhunsicker8904 lol why would I
@@arslaanpasha3334 I think your hair is fine
Typical American
Some clarification:
The answer isn't *"literally nothing"* it's *"Hardly Anything"*
The true answer is that you will be forced to go to the bottom and pick up the plastic bowling ball you dropped
After reading the comments and listening to about half of this dribble I'm tapping out before I fall asleep. I guess I'll never find out what happens to a steel ball in the Mariana trench.
Humans:- What if We Throw a Steel Ball into the Marina trench
Sea:- This trash just added to my collection!!
Whats ur point?
Lol I get it
@@johnmichaelgan6014 Ever heard of a joke?
I did not see this gun for 2
BUT HE STILL SONDS THE FUCKIN SAME
well its not trash it may be a good collection they added metal material in sea
10 minutes video just to tell what happens to a ball in Mariana Trench 😏
had to stretch it out to 10mins for that sweet ad revenue😎👍
10 mins video to tell what doesn’t happen to a ball
OMG. Claptrap!!!
I always have to fast forward these vids to the last 2mins, then find out im still disappointed 🥴
your dirty lol-
Thank you for doing American measurements as well. 👍🏼
What happens is you lose the ball forever as well as 10 minutes of your life watching this.
Johnny: damn, the beach is beautiful today, wait wtf is that a tsunami, what tf did you do Gyro?
Gyro: speeeen
Finally,
Stell Ball Swim
Lol was reading the comments looking for a Jojo reference, and here we are.
Whats inside black hole (explanation)
th-cam.com/video/7hx77WsQJ-A/w-d-xo.html
Inner Earth Civilizations Exist and I Can Prove It Agartha & Hollow Earth (Reupload)
th-cam.com/video/Xhd6vdhBtFE/w-d-xo.html ;)
Raymond Black same
Yes finally a jojo reference
It takes 12 minutes for the ball to reach the bottom. There. Now you don't have to watch a 10 min video out of which most of the time is a waste.
(I wrote this comment before the 'Most Replayed' feature was added)
i actually enjoy the full videos. not everyone is as miserable as you.
Thanks
@@xWagnerPlaguesx Not everyone is as ignorant as you.
@@TommenIBaratheon ignorant how lmao
I actually thought they tried it...your right wasted
Don't forget to clean up after myself 7 miles deep into the ocean? I'll send my Mother In-Law to sweep up my mess 😂😂
I think it is a lot more complex that the explanation here. Compressibility should be a factor. As pointed out in the video, metals will have negligible compressibility......but a bowling ball should crush a lot more as there is a lot more air in its mix. That will cause it to become more dense and slowly pick up speed as it descends, shouldn't it? An easy example.....in a swimming pool with a deep end (18+ feet deep), you can float on the surface. But swim down to the bottom and you may actually be able to stay there without flowing up because you have been slightly compressed by water pressure. If you scuba dive, you can see the affect even more easily.
intresting points, but I think there's some misconceptions here. First off, the compression of a human body in water is quite diffrent from the compression of a solid object like a steel ball or even a bowling ball. Our bodies are largely made of water and are, therefore, not very compressible, but we still notice a pressure change when diving because our air-filled spaces (like ears and lungs) are compressible and we're sensitive to pressure changes in these areas.
Now, when we talk about bowling balls or steel balls sinking, it's more about density than compressibility... yes, bowling balls have air in them, but the overall volume won't change too much under the pressure at the bottom of the Mariana Trench. The pressure there is about 1086 bars, which is A LOT, but not enough to compress solid materials significantly.
Think about it, metals are dense and hard, that's why we use them in construction, and the material a bowling ball is made from, is also engineered to withstand significant stress. So, the increase in density due to compression would be minimal, not enough to make the bowling ball speed up as it sinks.
And let's not forget buoyancy... the ball would have to displace an amount of water equal to its own weight to continue sinking. That's why objects float or sink in the first place. So, the speed of descent wouldn't be majorly influenced by the compression, but rather the weight and shape of the object, the fluid dynamics, and the buoyancy force.
Hope this clears things up a bit! 👍🙂
Desity increases therefore resistance increases and terminal velocity decreases. Guys a moron.
"What would happen if we threw a steel ball into the Mariana Trench?"
"A splash?"
Ridddle: *tidal waves, earthquakes, tsunamis, supernovae*
HYPERNOVAE, BLACK HOLE COLIDING, UNIVERSE CRASH TO IT SELF AND A NEW BIG BANG FORM
it's so good because it actually true
Pewdiepie's Chair it will definitely cause a tsunami
Our universe came to existence by god letting out a fart
Pewdiepie's Chair the world ending
Thumbnail : what if you throw a ball on a ocean
Video : first off lets examine why we exist
and now we need to talk about how coffee machines work
Ive been fortunate enough to have been working on a ship that crossed over the mariana trench. The color of the water over that deep of ocean literally messes with your mind. Its perfect;y clear yet the deeper you look it gets darker and darker blue. We were allowed to toss food waste overboard and i accidentally dropped a #10 can in the water. I was amazed how long i was able see it sink. The metal reflected the suns light until it looked like the faintest star in the night sky. Ill never forget that.
😮😮😮
Damn my Friday nights sure have changed
This video made me feel nostalgic, it had been more than 20 years since I slept in class! 😅Thanx!
'I'm going to conduct my own scientific research'
'Imagine you're a fish and a steel ball floats past you, it's unlikely you'll try to figure out how pressure affects it..' 🤣
He doesn't know the meaning of float. At that point, the ball is sinking, not floating.
The fish that does is a genius.
this is the point where i quit watching and thumbs down'd
THANK YOU! We need far fewer "hey-look! I discovered fire!" morons on here by far.
Thanks for explaining that fish don't understand pressure calculations. That was important.
I'm more interested in what caused the formation of the trench than the fact it exists.
Tectonic plates.
@@Soulatheunholy you're a sheep if you truly believe that, it was very clearly aliens
@@Soulatheunholy can confirm, i’m Tectonic Plates
@@aig9672 You are?
Video: "When they, to be honest, aren't so strong."
Gyro Zepelli: *angry Italian spinning*
I clicked this video looking for a comment like this lmao
I clicked this video looking for a comment like this lmao (2)
I clicked this video looking for a comment like this lmao (3)
I clicked this video looking for a comment like this lmao (4)
I clicked this video looking for a comment like this lmao (5)
When you could cover this in 10 seconds but you make it 10 minutes instead, what a joke
explained in 5 words
shrinks and might do crater
Ad revenue
What if the steel ball was spinning ?
In what direction? And wouldn’t it cause more friction by spinning?
Just thinking “ out loud “ here…..
@@ikvangalen6101 Jit didn’t get the reference.
This is part if my research on titan submersible 😅
The steel ball would get wet. 😂
It would also sink
*soft and wet
And will get hard and moisty!
J G probably because you were laughing too much😂👍
Pata hi tha koi bhart ka hi Aisa comment karega hahah lol
"What If You Throw a Steel Ball into the Mariana Trench"
The steel ball will spin and create a golden ratio infinite spin
A man of culture. Finally
I was expecting to find at least one Jojo fan.
The nails are better,though
Lol
and you will get a stand, Ball Breaker
You’re right now watching this due to the sub incident.
That 10 minute mark aint gonna hit itself
1: Under pressure, compressible substances compress until their internal pressure is the same as the external. A human, for instance will not be "crushed" or "torn to pieces". Death is certain, but as soon as cavities containing air, like the lungs, has been compacted to almost nothing, nothing else will happen. The internal pressure of skin, fat, muscles, fluids, bones will become the same as the external pressure with very little compression. That's also how the fish living at these depths handle it. They don't feel the pressure any more than you feel the substantial atmospheric pressure around you. (continued. expand text)
2: "In order to change the shape of steel" it takes a Force! Not pressure! Pressure will never change the shape of steel, not even more than "108.6 MPa", (which btw happens to be close enough to the pressure in the challenger deep).
3: How fast a solid steel ball falls through water, when it has achieved "terminal speed", depends upon its size. For it to achieve a terminal velocity of "15 m/s" (which is very fast, btw, VROOOOM, 33.55 Mph), it would have to be 1.208 m in diameter and weigh 7.293 metric tonnes. A steel ball with a diameter of an inch, otoh, would get a terminal speed of about 2.17 m/s, and ball bearing steel ball with a diameter of 5 mm will get a terminal velocity of about 0.97 m/s.
Just for clarification, since you seem to know what you're talking about, could you answer me a question, please. He mentioned that the density of the water changes with the pressure, although the compressability of water is fairly low, wouldn't that impact the terminal velocity of the ball instead of it having a constant rate of descent?
@The Gaming Christian Both pressure and temperature has an impact on a material's density.
@@sIDsleeper Yes. As would temperature and salinity. The variation would be 'small but significant'. Meaning that it doesn't change the understanding of what will happen, but if you rely on data from an involved method to - for example measure the depth - it will affect the results. The volume change at the bottom of the Challenger deep is rather small, I think around 4% - didn't the video say that too? -. But I won't go into it for accuracy, because the compressibility of water becomes a bit complex at such high pressures and don't follow the standard formulas. 4% volume reduction would be 4.2% increased density, which would reduce terminal velocity by 2%. So instead of 15 m/s, that giant steel ball will hit the bottom with 14.7 m/s.
4: The challenge for life to adapt to great depths and pressures, isn't structural, but the fact that pressure affects chemical reactions, including biochemical reactions. This is why we shouldn't expect human divers to be able to go much deeper, even if we remove breathing gases by some technology.
It really bothered me that he didn't establish the weight and diameter of the steel ball.
@@sIDsleeper Fd=−21ρv2ACd, where rho is the density, v = velocity, A = Aurface aerea in flow direction, C_d = drag coefficient.
Took 10 minutes to give a one-line answer. TH-cam trash content at its finest.
Thats basically Riddle in a nutshell, rocking a 3rd grade understanding of science.
This channel is literally the opposite of Kurzgesagt.
I'm surprised there are still so many people supporting this shit.
All good until you hit Leviathan with that steel ball and wake him up.
"Metal is a different matter all together."
(Pauses for laughter ...)
"no person can manage the pressure of Mariana Trench."
Me, presurred by life: hold my stress.
👌 69 👌
I’ve never felt more heard through a comment.
Only the cavities with air will be crushed. Apart from that, and the lack of oxygen in your blood, you will be fine.
@@CheetahNL good to hear I'll be doing just fine deep in Mariana Trench coz here on land I'm a deep mess.
@@CheetahNL you be dead it's 8 tons PSI or 17,000lbs PSI ABSOLUTELY CRUSHING down there. Imagine you in a robot suit and a pin hole is in your foot. Your whole body will be in your helmet.
Ah yes, Gyro and Johnny caused a massive vortex, they even forgot the golden spin energy was inside it.
I Love Ocean Especially [STONE OCEAN] and the [STAR] fish also its an epic [STEEL BALL RUN]
"If you throw a STEEL BALL it RUNS deep"
I was graSPINg for answers, but this video ROTATED me in the right direction
wait a minute...steel ball...run...AAAUUUUUAUAUUAGGGHHH
I was digging hard for a jojo refrence 😭
@@jayferarri6927 same
@@jayferarri6927 same here
Sorry, "Ridddle", but this is the worst science video I've ever seen.
I agree, they didn't even include tungsten 😧
"science" video
@@davidclark3636 i think you mean osmium
Yet it’s one of the most popular on their channel with 1.4 Million views in 1 month.
They all suck lol
I love the final message, "Clean up after yourself."
I know, you know, we know Why you are here…
The only thing that would survive here would be a Nokia 3210
Teacher: the assignment must be 10 minutes long, minimum
The best description I saw on something like this was one of those mini subs that can go to great depths.
They took down a polystyrene cup that was normal cup size, but when they came back up, it was still cup shaped, but it was getting near to a thimble size which I could see with my own eyes.
now that was impressive.
I was always told you not crazy when you talk to yourself but when you answer your own questions.
from this video I have learned absolutely nothing
When you’re running out of content ideas so you quickly throw this video together, and you need to hit 10 minutes for ad revenue but don’t have much to offer to your viewers...
"The steel ball" will "run" straight through the trench while "spin"ning. And guess what else
"YOU FELL FOR IT FOOL. THUNDER CROSS SPLIT ATTACK."
Lmao i knew it was gonna be jonathan with stand
Jojo Reference. Nice.
The references are everywhere.
Everything is a Jojo reference
No. I vampire I freeze you
"Imagine you're deep sea fish and suddenly a steel ball floats past you",,,,,,,it's not 'floating', it's sinking.....and fast.
Very impressed that you got 10 minutes out of this.
Imagine shooting your basket but miss it and u have to go all the way back down the mountain to get it
Made my day!! XD
@@aayushdech6380 thanks for letting me know glad to help
Lol funny
Can we rename this video to "Send this to someone to waste 10min of their life"?
Wtf was the point of telling us fish don’t care about this?
it takes balls of steel to conduct an experiment like this.
Steel Ball: *Exists
Jojo fans: You referenced us?
Ayy lmao
Cultured
nigerundayo
BALL BREAKER!
BREAK THIS GUY'S BALLSACK!
I was expecting a jojo reference
*at work tomorrow*
Co-workers: heard it's supposed to snow tomorrow.
Me: A bowling ball made of gold would hit the floor of the Mariana trench in 17 minutes.
Lol 👍🏻
well he said that a lead ball falls slower but lead is heaver then gold lol
steel is made by a pressure literally millions times more than ocean pressure, so ya it wont even notice
Crazy to think that there might be somewhere even deeper but nobody has discover it yet
I was hoping he would elaborate more on the game of bowling, how these holed balls came to be, how their bright colors might also not make a dang difference at the bottom of the ocean, but instead I was left with this too short explanation, which could have been explored much further.
...IT WAS A TOTOL SHIT WATCH.
On the contrary Dog Boi it was engaging. Show me something that isn't hogwash in your mind, please.
@@simonmasters3295 Your question is so generalised that I am spoilt for choice for an answer. Maybe you should start with the basics and ask one question at a time and I may answer it. May I remind you that more than one question equates to you failing in a simple task.
Good luck clever clogs.
DBM. England 🏴
this is not nam. this is bowling. there are rules.
"What if we throw a Steel Ball into the Mariana Trech"
IT WILL RUN, STEEL BALL RUN!
Im searching for this
Yes!! Yes!! Yes!! Yes!!
Race you to the end
They will discover the power of the
SPIN
If a steel ball is hallow then it would either implode or be smashed flatter than a quarter but if the steel ball is solid nothing would happen to it…except being buried when it impacts the sea floor
I enjoyed every second of this video. So educative. Thanks
That’s really cool, I used to work for an oilfield company up in northern Alberta Canada and we were fishing or wireline. We had a tool that we would drop down the well and our line was a quarter inch stainless steel solid line and the wells are 4000 m deep and it would take us 45 minutes just a freefall our tools down to where we needed them. It was usually to set a plug or to get a plug out of the well
lol sry i live nerar there
3:15
introverts : our battle will be legendary
ViniByte (^-^)
In 1875, how did they know that area was extraordinarily deep?
The guy talking about physics and everybody expecting aliens to come out of there... Wow...
“Technology wasn’t capable” Aka : they diddn’t bring enough rope...
You win the Internet for today!
It took 76 years for them to find enough rope to go back, haha.
who tf brings 10km of rope
@@Kevs442 haha
This was waisted time, you owe me 10 minutes, and 4 seconds of my life back.
And 5 seconds to be accurate
@@jamwiz8367 don't ' waist ' his time with such details xD
Would you like your 10minutes and 5seconds refunded by Life Card or Credit Card?
@@LilGhostlyX_X he would like the refund in the stores sleep points
@@MarkC1685 don’t waste your time being so rude bro
I’ll save you some time. Nothing happens to the Steel ball. At most it shrinks, but it’s so minor you can’t tell visually, and when it resurfaces, it expands back to original size.
Thank you, brother!
dont worry about clean up in the trench now, it's already too late, plastics have been found there now too.
JoJo's Bizarre Adventure: Steel Ball Drop
I came here looking for this, was not disappointed lol
I was looking for this lol
lmfao