Bro these bots SHOULD be banned actually get thanos and snap him from the timeline why would *UTTP* just post "oh wow im murdering crying kittens as i laugh my content is better" then posts "i love if other people die because my content is better" like WHY? These bots are now posting offensive, hate crime, promotes terrisom, animal abuse, threatens murder, and etc. Like stop them youtube pls
dw i gothcu. This video only applies to loops, which is technically a really steep up hill, and doesnt cover bumps, hills, or anything with a downhill, where the cart could be pulled down faster then you, possibly ejecting you.
Not true at all. You will be fine through vertical loops but not anything else. U go over one hill fast you will be ejected out, go through a turn with laterals.. fly out. Anytime you are to experience negative or lateral gs you will fly out of the train depending on how fast it’s going and how smooth the ride is.
I'm pretty sure there are times in a coaster where you can feel weightless (as in your weight is upwards not downwards) also some coaster have sharp turns
@@justanobody0yes most (probably all?) coasters have negative G moments. Which is why people do, in fact, fall to their deaths from them when the restraints fail.
i think that, in an ideal situation, the centrifugal force should be bigger or equal to the weight of the person. so, since the centrifugal force is equal to m (mass of the person) times the centripetal acceleration, which is v^2/R (where v is the velocity of the cart and R is the radius of the trail) and the weight of the person is m times g (gravitational acceleration), the minimum speed v that the cart should have for the person not to fall should be: m*v^2/R (centrifugal force) >= m*g, so v=sqrt(Rg). but this is an idealistic situation so yeah you would probably fall despite everything lol
I’m pretty sure something like this happened once to me where the harness was just a little loose, enough to make me nervous. But it could also be a nightmare I had
@@orihallmarkyou were still safe, lots of enthusiasts like loose garness because it provides more room, but you'd still be safe, the operators make sure you do
You shouldn’t really be 100% sure of anything. There’s always freak incidents, miscalculations, and also just us disproving and then subsequently improving our knowledge on things. Almost nothing should be taken as a guarantee, because as far as we know everything can be improved in some way.
The odds of this happening are 1 in 700 million, or something close to that if I remember correctly. Restraints have redundancies to stop this, and those redundancies also have redundancies to the point they're so over designed. So this is almost impossible.
i was on one of the rides and the metal bars just didnt close "deep" enough for my skinny body so if i would not hold the bars with my hands i would 100% fell off the ride and we were not even doing upside down loops
u cant have a heart attack unless si have a heart condition, and if your fear of rollercoasters is that strong AND you have a heart condition, you shouldnt be going on. yes, the bar going loose is much more scary and unexpected than just a rollercoaster, but if you'd have a heart attack over it? nah they'd never met ya on.
Why, do you have a heart attack when you realize the only thing that keeps the planet you live on from crashing into the sun is the speed of earth's orbit?
You made a mistake dude, centripetal keeps you in the circular path it's radially inward centrifugal is an imaginary radially outward to counter centripetal it's the one which pushes you out of the circular path.
Zack should make two channels- one for completely wiping out hope and installing fear into us with facts about things, and another for giving us the most safe feeling/ cherishing facts.
However…. the coaster shown in the video is a Vekoma Boomerang (Vekoma is the manufacturer and Boomerang is the name of the model) this clone is found at multiple theme parks such as Hersheypark, Six Flags Discovery Kingdom, and Walibi Holland. This model is focused on giving the rider positive g forces in each element. A lot of other coasters have airtime hills that have the opposite reaction and if your restraint were to lift (this would never happen if you are following the rules) you would fly out because of the negative g forces. Don’t worry though because it is so incredibly rare for the restraint to lift since it is locked in place with a hydraulic or ratcheted mechanism
I should add that its not really a force as it is the momentum of your body being constantly changed "upwards" so really its just a property of momentum than a force.
Basically it's momentum. Sonic uses the same physics on a loop due to his speed. If you slow down on said loop, he falls, but if you keep your speed consistent or faster, you'd make it through said loop. Edit: OKAY I GET IT, MOMENTUM ISN'T ENOUGH TO EXPLAIN THE SCIENCE BEHIND THIS AND PEOPLE HATE SONIC, DAMN. JUST TRYING TO EXPLAIN WHAT HAPPENED IN THE MOST SIMPLE WAY POSSIBLE FOR THOSE WHO DIDN'T FULLY UNDERSTAND. (Good Lord...)
to uttp kid that is about to spam something you are only giving money to youtubers when u are commenting yknow so it also will make the youtuber's videos show more than others on your recommendations or sum
For all physics lovers , 1..normal force towards the track 2.. (ac) centripital acceleration ❤ Edit1 . Ok guys it's centrifugal Edit 2.stop correcting me guys I'm done,,
I was thinking it was Newton’s first law: You keep moving in the same direction until the rollercoaster puts a force on you. It’s like how you sway from side to side in a car on a roundabout
Its called G force. Most jet pilots experience it when pulling tight maneuvers. Its caused by inertia because when you turn, the mass of the object doesnt entirely want to stop and turn but keeps going foward and then turns. I just noticed I got this many likes holy shit
It's in fact not a force. It's an effect due to inertia. Your body want to keep moving in the same direction but your sit make you turn. It should be called the centrifugal effect.
That's what make you do the turn and it's due to the sit pushing you. The centrifugal effect is the reaction of your body that want to keep going in the same direction. It's that that is calculated in g force.
In 2004 man with cerebral palsy got flung out of his seat on Superman Ride of Steel at Six Flags. He had his hand severed by the train rolling over his hand that got stuck between it and the track, and then he was flung into one of the support posts and died. He was buckled in, but the T-style lap bar didn't buckle in correctly because of the riders size. It came loose during the ride, the train went through a turn segment and the train went from -1.5gs to +2gs and that's when he was flung from the train.
Just so you know, The force is called “ *centrifugal force* “. It can be displayed by taking a bucket of water and swinging it around. …or inertia, thanks to the comments, cause i was half-asleep when i wrote this
The centrifugal pseudo-force is just the conservation of momentum because objects with a velocity move in a straight line The centripetal force in this case is the just the normal force/reaction of the tracks onto the moving object Yea the physics described in the short are kinda wrong
@@bodalasyamsundar1467 Yea, and the centrifugal "force" is just the conservation of momentum, it's misleading to call it a real "special" force like in the short
Trueee. I remember when my science teacher gave us an experiment where we put water on the bottle without the bottle cap, then we rotate it in circle faster and faster, we noticed that the water did not fall Edit: I apologize to everyone for my mistake because I accidentally said gravity instead of centripetal force Science is really awesome bro.
@@aartigopani5251 No, centripetal force is the force pulling you towards the circle (otherwise you'd go in a straight line) the force pulling you away from the circle is centrifugal force (which is just the inertia wanting you to go on a straight path when you can't.)
The way He says *"PROBABLY"* enhanced my trust issues edit: *Take it as a joke don't try to explain things In reply section We know you are Sir Issac Newton's Reincarnation*
when he says probably he means the roller coaster is probably going fast enough. if youre on a roller coaster and your seat gets loose you just better hope it doesnt go slow till the end. 💀
that is mainly cause it depends on rollercoaster. slower loops may make you fall out. aswell tight turns and inverted turns will give the opesit effect. same with inverted loops
@@NoHandleName0 he did he was like “last chance n---, UUTP IS WAY BETTER THAN ZACK D FILMS” and stuff like “Imagine if Zack just had a stroke b/c my content is better” and stuff
My mum worked as a carny for years and always told us that the safety equipment were sometimes just for show as the forces in the ride basically glue you to your seat. I just want to specify the "sometimes" however since she also says that other factors weigh in like hight, weight and changes in speed can cause unpradictable outcomes which is why all rides legally require a safety bar or strap because its better to have it and not need it then to need it and not have it. Edit: my mum saw my comment on my phone and wanted to add this: "next time your on a ride pay attention to how much you get pushed back into your seat vs how much you get pushed into the harness as that will show you just how safe these rides actually are due to the physics involved"
Why does this only have 7 likes and no comments yet more useless comments have more likes and comments 😭 Thanks alot for this knowledge i will keep it in mind
@@walter3075 being pushed into the seat means that the ride is forcing you to stay on the ride. Being pushed into the bar or harness means the ride is trying to throw you off. Being pushed into the seat is easily safer.
I can say with confidence, the skydive is not one of them. (Variety of names, goes up, and drops straight down.) Anytime I've been on one I can feel my chest hit the bar holding me in and my ass is not in my seat. I love that ride.
Roller coasters do have sudden change in their speed multiple times. So, chances are for you to eject out super fast. Harnesses and seat belts are really important.
There are coasters that intentionally pull negative g's where you loft out of your seat. Sometimes in these rolling dives. But most of the time the shoulder harness is to keep idiots from standing up or doing something else stupid.
Final Destination 3 (at the scene of the ride) is 99.9 percent fake (The 0.01 percent of realism is the ride model) •restraints on a coaster train do not close through the same control at the same time •a small object cannot overpower a train full of humans which add weight to the already heavy train •there are multiple failsafes in place in case one fails for a restraint •major parks are more heavily enforced by law to maintain attractions and make sure that money givers (people) do not become money takers due to an accident •(insert another reason that I don’t feel like typing)
Wrong, the centripetal force is the normal force plus the gravitional force. The centripetal force is the net force in this situation. The centripetal force is the force trying to take a passenger out of their seat, not keep them in.
@@Prakash_Nadarthere is nothing called a centrifugal force, By drawing a free body diagram and you will know, the ‘force’ you experienced is just inertia, thinking of when you are in a car turning left, but u will feel that the car push you rightward, that’s because of inertia, by maintaining the original direction and speed you’re moving if there’s no any force applied on it, that’s why an object is pushed on space will forever move forward. On earth u got friction when moving on a surface or air resistance, etc. that stop you.
@@Prakash_NadarCentrigual force isn't exactly caused by the centripetal force. It's not a reaction force to the centripetal, but rather a fictitious force that "appears" to be there as a result of inertia.
@Kami_mika220 both centrifugal and centripetal force comes into play Centripetal force bcs The rollercoaster's curvature and speed would create a force pulling you towards the center of the turn, keeping you in place Centrifugal force bcs As the rollercoaster turns, this force would push you away from the center, but since you're upside down, it would actually help keep you stuck to the seat
Ferb I know what we are gonna do today! Note: ooh just what did I do to get this trouble man, one says to other spam one, another says god or something
This is CENTRIFUGAL force, not centripetal Centrifugal force is an inertial force, as in it technically is fictitious, but it's still referred to as a type of force even if it technically isn't
Preach my brother 🙌 If your frame of reference is the roller coaster car then it will seem like a force, just like how when you brake in a car it seems like you're being pushed forwards.
There is no such force, there is only the force pushing you towards the center from gravity and the perpendicular of the coaster, however it exactly enough such that you move in a circular motion
⚠️ *Zack, this is dangerous misinformation. You need to stop.* As someone who worked for a roller coaster engineering firm, I can tell you flat out that this is false. Almost all roller coasters exhibit 3 types of forces on riders: Positive vertical Gs, negative vertical Gs, and lateral Gs. Only the positive vertical Gs (which occur during loops and valleys) will force you into your seat. Negative vertical Gs, sometimes called "air time" (which occur during crests) will force you in the opposite direction, up into the air. Lateral Gs (which occur during sharp turns) apply horizontally, and will throw you out the side of the car. *So no, if your restraints fail, pull them back to where they should be and hold on for dear life. You will very likely die if you rely on this video's advice.*
That’s only if the you’re on the inner section of the loop. If you hit a part of the roller coaster where it swings you out, you’ll get flung harder than your keys when you spin them on you finger for too long.
or laterals, such as a vekoma boomerang. why might I be mentioning a vekoma boomerang? this video angers me both through the ground-up incorrect "physics" and because the premise is not true. you would fall out immediately if your restraint came undone
Incase anyone wanted to learn some physics today, I got you: Said "special force" is called centrifugal force, and it's not the only one there. There is also the centripetal force, the one pulling the object back into the center of the rotation. Easily explained using newton's 2nd and 3rd law. For the second law all we need to look at the the formula F=m×a (force = mass ×acceleration), and since we're moving radially our "a" will be "a(radial or circular)" which is easily achived by the formula a(c)= v²/r (tangental velocity²/ radius). Once then you'll have the magnitude of the circular foces in your system, which leads into newtons 3rd law: "every action has an equal and opposite reaction" which gives us the centripetal and centrifugalforces, same in magnitude but different in direction. So, at the top of the loop you'll have both the force of gravity and the centripetal force pulling down, whereas at the bottom of the loop you'll have the centrifugal and the gravitational forces pulling you down. As gravity is always pulling down (duh), that force will always be in the same direction. Hope this helped for anyone wanting to know :3
@@guilhermegigeck5946the centripetal force does exist, it's the normal force of the rail onto the train and by consequence the person + gravitational force at the top and - gravitational force at the bottom. Edit: it has to be there cuz if it wasn't there they would just go straight, as for a rotation you need acceleration and for acceleration you need force
It’s actually like an acceleration force acting on u like when u are in a car where the car moves forward and there will be a force acting against motion that pushes u backwards
that's not an action-reaction pair. in that case, the action-reaction pair is between the force exerted by your body on the seat (acts against the car's acceleration) and the force exerted by the seat on your body (acts in the same direction as the car's acceleration). you are feeling the force exerted by the seat on your body, and that force causes you to accelerate forward. if this force was acting in the opposite direction, you would accelerate backwards and noclip through the car. I didn't understand classical mechanics until I grasped this anywho the video itself is ground-up cap, you would not be able to stay in a roller coaster at all because the restraint works with the seat to push you around with the train, and that's why roller coaster restraints are designed to be impossible to open without external power
For those wondering (or losing their minds) there is no special force that keeps pushing you. It’s just inertia. Your body wants to keep moving in an outward direction when you go around a curve but the roller coaster car stops you, therefore you stay in your seat. There is no force acting on you other than the normal force from the seat or the force of friction. Centripedal force is something entirely different.
@@quixQuery centrifugal force is not "wrong" in a physics sense. It is just a result of using a non-inertial reference frame. If you use the reference frame of the roller coaster car, you should be using centrifugal force instead of centripetal. This is something called a "fictitious force," which many introductory physics students mistake as meaning that the force is "wrong" and should not be used.
@UTTPisBetterThanDannoCalbro be quiet you got less than 300 subs & your channel sucks, also NOBODY ASKED SO YOU CANNOT BE TALKING bro I bet this is a 6 year old writing this bragging about their dumb channel 🤷♂️ also who says the n word in comments that’s dumb :/
@UTTPisBetterThanDannoCalbro be quiet you got less than 300 subs & your channel sucks, also NOBODY ASKED SO YOU CANNOT BE TALKING bro I bet this is a 6 year old writing this bragging about their dumb channel 🤷♂️ also who says the n word in comments that’s dumb :/
@UTTPisBetterThanDannoCalbro be quiet you got less than 300 subs & your channel sucks, also NOBODY ASKED SO YOU CANNOT BE TALKING bro I bet this is a 6 year old writing this bragging about their dumb channel 🤷♂️ also who says the n word in comments that’s dumb :/
"Centrifugal force" is the term. Basically the idea that gravity is pulling you down, but you have this force that's keeping you up so you're not pancaked to the floor.
Centripetal force is just the general term that stands in for the actual force that’s being used, I forgot what that actual force is in this case bc I took physics a couple years ago but it might be normal force feel free to correct me if
@@Joe-nc8rxcentripetal force directs inwards and is the force that accelerates the roller coaster in a circle. the name for this phenomenon is “centrifugal force”, which is technically a force that doesn’t exist, but only exists to explain phenomena like this one
Roller coaster restraints are designed in a way where it's nearly impossible for them to open while the ride is moving. On newer rollercoasters there are hydraulic restraints, where in order for them to open there needs to be hydraulic force applied. That basically just means that the restraints normal position is closed, and they need to be powered to open. Also there is a back up hydraulic cylinder, so if one fails there is a back up one The train of the coaster needs to be in the station, where if In the right position, sensors will connect to the train and only THEN the restraints will unlock. In the case there needs to be an evacuation (such as on the lift hill or stopped at block zone brakes) a staff member will need to bring a tool and unlock the seats manually. Not to mention if in some, astronomically small chance, the restraints fail, most trains have a seatbelt anyway.
@@vileguttscentrifugal forces is actually a myth. It’s a centripetal force but there isn’t a force pulling you to the seat, your just moving fast enough that the force of gravity combined with your velocity vector being tangential to the gravity that it only changes your velocity keeping you inline with the circle.
We cancelling fears now
NO UTTP ALLOWED!
@UTTPisBetterThanDannoCal uttp is death
@UTTPisBetterThanDannoCalYou probably gave them another fear
@UTTPisBetterThanDannoCalgive the phone back to your mom
Bro the bots on this comment 😂 yeah good thing too, we might not need therapy lol
finally, an animation that doesn't scare us all
Two bots 💀
Thas a lot of bots
Bro these bots SHOULD be banned actually get thanos and snap him from the timeline why would *UTTP* just post "oh wow im murdering crying kittens as i laugh my content is better" then posts "i love if other people die because my content is better" like WHY? These bots are now posting offensive, hate crime, promotes terrisom, animal abuse, threatens murder, and etc. Like stop them youtube pls
@k2vnbrms7 this robot (robot title is better than bot) is actually better than UTTP somehow?
@@nathanc6443it's even crazier cuz uttp is made of stupid 14 year olds now imagine those mfs goin' to hell (yes I mean it)
wow bro decided to choose peace for once after all the trauma and new fears he has caused
Nah underrated comment
🤣🤣
“Probably”
dw i gothcu.
This video only applies to loops, which is technically a really steep up hill, and doesnt cover bumps, hills, or anything with a downhill, where the cart could be pulled down faster then you, possibly ejecting you.
Can yiu play gacha life with me
Oh wow that’s actually comforting to hear
But you’re still dying as soon as you hit an airtime hill😂
This isn’t true at all your most likely gonna fly out as soon as your seat breaks
?
Not true at all. You will be fine through vertical loops but not anything else. U go over one hill fast you will be ejected out, go through a turn with laterals.. fly out. Anytime you are to experience negative or lateral gs you will fly out of the train depending on how fast it’s going and how smooth the ride is.
"Probably" Is the key
Anything below 80 miles an hour, and if the loop is big enough…yea you’re falling out. Lol im a physics teacher
I'm pretty sure there are times in a coaster where you can feel weightless (as in your weight is upwards not downwards)
also some coaster have sharp turns
@@justanobody0yes most (probably all?) coasters have negative G moments. Which is why people do, in fact, fall to their deaths from them when the restraints fail.
i think that, in an ideal situation, the centrifugal force should be bigger or equal to the weight of the person. so, since the centrifugal force is equal to m (mass of the person) times the centripetal acceleration, which is v^2/R (where v is the velocity of the cart and R is the radius of the trail) and the weight of the person is m times g (gravitational acceleration), the minimum speed v that the cart should have for the person not to fall should be: m*v^2/R (centrifugal force) >= m*g, so v=sqrt(Rg). but this is an idealistic situation so yeah you would probably fall despite everything lol
@@nicolasr7706it’s inertia right?
I would still hold onto the harness for dear life
Fr
I’m pretty sure something like this happened once to me where the harness was just a little loose, enough to make me nervous. But it could also be a nightmare I had
SAME
Fr😂😂😂😂
@@orihallmarkyou were still safe, lots of enthusiasts like loose garness because it provides more room, but you'd still be safe, the operators make sure you do
“Probably”
You can never feel 100 percent assured on this planet no more bruh
Ong real shit
And that is why 99.9% exists I guess
Wym “no more”? Ur acting as if physics changed now 💀💀
You shouldn’t really be 100% sure of anything. There’s always freak incidents, miscalculations, and also just us disproving and then subsequently improving our knowledge on things.
Almost nothing should be taken as a guarantee, because as far as we know everything can be improved in some way.
"Probably" dissolves the legitimate use of the word "fact"
final destination got some explaining to do 💀
That "probably" didn't give me enough confidence
impossible for the restraints to become loose anyway
That "probably" would be like saying it's like a 0.05% of you falling out 😂
No you will fall if your too fat
The odds of this happening are 1 in 700 million, or something close to that if I remember correctly. Restraints have redundancies to stop this, and those redundancies also have redundancies to the point they're so over designed. So this is almost impossible.
i was on one of the rides and the metal bars just didnt close "deep" enough for my skinny body so if i would not hold the bars with my hands i would 100% fell off the ride and we were not even doing upside down loops
You'd have a heart attack tho when you and your body realize the only thing keeping you up is the speed of the ride.
Thanks for adding to the already overcame fear xddd
u cant have a heart attack unless si have a heart condition, and if your fear of rollercoasters is that strong AND you have a heart condition, you shouldnt be going on.
yes, the bar going loose is much more scary and unexpected than just a rollercoaster, but if you'd have a heart attack over it? nah they'd never met ya on.
Why, do you have a heart attack when you realize the only thing that keeps the planet you live on from crashing into the sun is the speed of earth's orbit?
"911 whats you're emergency?"
"Gravity aint gravity-ing"
😂😂😂😂
centrifugal force
@@kielbasaman2824 Centrifugal*
@@vladimirgrom2256 isn’t that what i said
@@kielbasaman2824 you know that everyone can see that you edited your comment, right?
And the centrifugal force is sometimes so strong that your foot gets pushed out from the floor of the cart.
I thought it was centripetal
You made a mistake dude, centripetal keeps you in the circular path it's radially inward centrifugal is an imaginary radially outward to counter centripetal it's the one which pushes you out of the circular path.
Centrifugal force doesn’t exist in physics, your feet pushing out possibly comes from inertia as you accelerate up or down the roller coaster
@@bigdood4094 centrifugal force is a kind of inertial force
@@bigdood4094 yeah exactly you can read i said imaginary right.
Gravity has been real quiet since this dropped
Underrated comment
india superpower in 2050 sarr 🇮🇳 💪 💪 💪 💪
proud to be Indian sarr
india will rule the whole world in 2100 sarr 💪 💪 💪 💪
Bro what
Scream for help❌
Wait until you get through the looping✅
Anti UTTP person here, to prevent them from chatting. Somehow.
You're doing great keep it up@@lourenceheinzflores8723
NO UTTP
Jee neet aspirants laughing in corner 😂
Why not grab the bar
Zack should make two channels- one for completely wiping out hope and installing fear into us with facts about things, and another for giving us the most safe feeling/ cherishing facts.
He makes 80million a year from one channel alone that could make him 160m if he made 2
Fr💀💀
I agree
💀
@@ReviewReview-ib3pohe does not make anywhere near 80 million a year.
@Lmg1161 he in fact does make 81.4 million go look nd if u think I’m lying even add up his views
Zack: a special force. Me: No no that’s centripetal force
Centrifugal
@ false
@@k2120centrifugal force isn’t real, its a pseudo-force 😮
Everyone gangsta until the roller coaster also stops mid way up
🫢
How would that happen? It wouldn’t just stop it has momentum, and if it ran out of momentum it would just fall backwards and everyone would be ok
@@coastercookieYTit’s a joke goodie two shoes
@@Urfav_brunette05 gulp
@@coastercookieYTthat second scenario would negate the Coriolis force that propagates from the velocity.
Rollercoasters be like “gravity ain’t got shit on me” 😂
Cause I’m on top of the world 🤣
Thats centripidal force
@@fayozjonfarmonov9466 that’s the wrong force that pulls you toward the center of the wheel
@@fayozjonfarmonov9466 its pseudo force
@@fayozjonfarmonov9466so close yet so far
Final Destination 3 DEBUNKED!
Lol
They were stuck in the loop
Oh
Exactly where my mind went to
No.. They were stuck in the midway of loop so technically they will literally fall out
Bro finally made a nice calming video 😭🙏
However…. the coaster shown in the video is a Vekoma Boomerang (Vekoma is the manufacturer and Boomerang is the name of the model) this clone is found at multiple theme parks such as Hersheypark, Six Flags Discovery Kingdom, and Walibi Holland. This model is focused on giving the rider positive g forces in each element. A lot of other coasters have airtime hills that have the opposite reaction and if your restraint were to lift (this would never happen if you are following the rules) you would fly out because of the negative g forces. Don’t worry though because it is so incredibly rare for the restraint to lift since it is locked in place with a hydraulic or ratcheted mechanism
How do you know this
@@LenKim-dg9to He’s a thoosie
@@LenKim-dg9to This thing called “Google”
@@LenKim-dg9to I am an enthusiast so I’ve watched too many rollercoaster RUclips videos and have been to too many parks
Where are ya at thoosies 👇
If the roller coaster is branded by Zack, you know you are not safe 💀
@@歐vhello apple
🤣🤣🤣🤣
If you know that, you are aware that you will be an example of something wired happening...🤣
@UTTPisBetterThanDannoCalboy you do not make realistic videos racist boy
@UTTPisBetterThanDannoCalno habla fatherless
“A special force” 😂😂
😂😂😂
Centrifugal
Yes it's named centrifugal force
I should add that its not really a force as it is the momentum of your body being constantly changed "upwards" so really its just a property of momentum than a force.
Isnt it centripetal?
Instructions unclear.
The loop was too slow so i fell
Basically it's momentum. Sonic uses the same physics on a loop due to his speed. If you slow down on said loop, he falls, but if you keep your speed consistent or faster, you'd make it through said loop.
Edit: OKAY I GET IT, MOMENTUM ISN'T ENOUGH TO EXPLAIN THE SCIENCE BEHIND THIS AND PEOPLE HATE SONIC, DAMN. JUST TRYING TO EXPLAIN WHAT HAPPENED IN THE MOST SIMPLE WAY POSSIBLE FOR THOSE WHO DIDN'T FULLY UNDERSTAND. (Good Lord...)
Unless you’re playing ‘06, in which case stopping at the peak of the loop will cause you to stick to it
Commenting so that UTTP might not spam
It's not momentum, it's centrifugal force
to uttp kid that is about to spam something
you are only giving money to youtubers when u are commenting yknow so it also will make the youtuber's videos show more than others on your recommendations or sum
@@luwuiecentripetal*
It’s all fun and games until the rollercoaster stops upside down 😭😭
and thats where the restraints come in handy!
@@hashtagnator_youtubecool
Then just hold on to that bar until you get some help or just climb down
@@FalzeGaming climb?
@@hashtagnator_youtubeyeah, like climbing a rope, but down!
For all physics lovers ,
1..normal force towards the track
2.. (ac) centripital acceleration ❤
Edit1 . Ok guys it's centrifugal
Edit 2.stop correcting me guys I'm done,,
Isn't it centripetal force?
Is it cetripetal or centrifugal, Is there a difference between the two?
You are still faking down regardless. It's not like your mass is not gonna affect the fall
@@tirezfarhornyes there is a difference
I was thinking it was Newton’s first law:
You keep moving in the same direction until the rollercoaster puts a force on you. It’s like how you sway from side to side in a car on a roundabout
That special force is called centrifugal force
If the coaster has a straight drop, aint no centrifugal force gonna save you 😭
Fr tho😭😭😭😭😭😭😭😭🙏🙏🙏🙏🙏🙏🙏🙏🙏
Nah bro we got the gun boats.
If the roller coaster is fast enough there then will be enough g-force to stop you from falling
But if it’s a hybrid, you are dead
centripetal*
I think Zack is trying to own up for all the fears he has given me
LMAOO RIGHT
I hope so 😊
That scream was so genuine 😭
That scream from gta iv😭
@@Luvseff1 dam i recognized it too
Bro I thought I was going crazy for a second thank you for confirming it @Luvseff1
😂😂😂
Aaa
this is very true but it's good to still try and hold on and maybe even push up when going on the loop so your being pushed down even more
Its called G force. Most jet pilots experience it when pulling tight maneuvers. Its caused by inertia because when you turn, the mass of the object doesnt entirely want to stop and turn but keeps going foward and then turns.
I just noticed I got this many likes holy shit
Centrigugal force
It's in fact not a force. It's an effect due to inertia. Your body want to keep moving in the same direction but your sit make you turn. It should be called the centrifugal effect.
@@jeremiesalgat1284 Yeah it's the reaction to centripetal force
@@jeremiesalgat1284it’s centripetal force
That's what make you do the turn and it's due to the sit pushing you. The centrifugal effect is the reaction of your body that want to keep going in the same direction. It's that that is calculated in g force.
Everyone gangsta until a bump appears
It would actuall work just the same. A force would pull you down.
i am waiting for Underaged Toddlers Trying to escape from Parental controls (UTTP) here
same here
@@dawidwojacki5049?
@@dawidwojacki5049no in this case when the coaster goes down you will be actually jumped out
However a sideways turn WILL fling you out if the tracks don’t lean into the turn
In 2004 man with cerebral palsy got flung out of his seat on Superman Ride of Steel at Six Flags. He had his hand severed by the train rolling over his hand that got stuck between it and the track, and then he was flung into one of the support posts and died. He was buckled in, but the T-style lap bar didn't buckle in correctly because of the riders size. It came loose during the ride, the train went through a turn segment and the train went from -1.5gs to +2gs and that's when he was flung from the train.
@@craigdean4468that’s terrible!!!🙏🏿🙏🏿🙏🏿
@craigdean4468 jesus..
Its all fun n games until the rollar coaster gets stuck upside down
That can't happen
the guy keeping his hands in the air and not trying to hold on the bar is so real
yeah.
No uttp!!!
He's just like me fr
Just so you know,
The force is called “ *centrifugal force* “.
It can be displayed by taking a bucket of water and swinging it around.
…or inertia, thanks to the comments, cause i was half-asleep when i wrote this
and is also not a force at all, just inertia.
@@Schenkel101Agree
i was half-asleep when i commented this, so i realize im wrong 🙃
@@Bread_Offish You're also correct
@@Schenkel101 better described as "the sum of many forces" rather than "not a force", i find
Negative G-force (AKA Airtime):
“Allow me to introduce myself.”
Not in this case the pull up into the cobra roll would be positive Gs pushing you into your seat
It's positive bro
both of the replies to this comment are so stupid
@@Adomip-vh4fe I’m just saying this out of context. This would only happen on coasters that focus on airtime, like B&M Hypers.
Dont try guys
Definitely 100% guaranteed 💀
Special force=centrifugal force
Centripetal, actually
@flowertrue which school bro 😂... it's centrifugal force that acts away from the center...centripetal actually pull towards center.. check twice
The centrifugal pseudo-force is just the conservation of momentum because objects with a velocity move in a straight line
The centripetal force in this case is the just the normal force/reaction of the tracks onto the moving object
Yea the physics described in the short are kinda wrong
@@bodalasyamsundar1467 Yea, and the centrifugal "force" is just the conservation of momentum, it's misleading to call it a real "special" force like in the short
@@bodalasyamsundar1467wouldn’t that just be gravity though?
Trueee. I remember when my science teacher gave us an experiment where we put water on the bottle without the bottle cap, then we rotate it in circle faster and faster, we noticed that the water did not fall
Edit: I apologize to everyone for my mistake because I accidentally said gravity instead of centripetal force
Science is really awesome bro.
69 likes 😂but agree science is cool edit:it was 69 while i saw it
that was momentum
Yup, centripetal force
@@aartigopani5251 No, centripetal force is the force pulling you towards the circle (otherwise you'd go in a straight line)
the force pulling you away from the circle is centrifugal force (which is just the inertia wanting you to go on a straight path when you can't.)
Centrifugal force. Weird the video didn’t mention the name of it. It’s something we’ve all experienced
Me: "I should really go check this out" *Falls off a roller coaster with a concussion*
Bro breathe 🤣
@@AV-qw2ws There's no way gravity is saving me tho 💀
I mean ur lucky u only got a concussion and that u survived 😂
Yes that's all you would get.
A concussion
@@matiktherapper7094 cmon chat what worse could u get?
why was bro the only one ridimg the rollercoster?😂
Centripetal Force!!!!
No its centrifugal force
@@neostoic19 oh :(
Its centrifugal bro
The one he referred to was centrifuge (away from the center)
It is an imaginary force
I’d be holding onto the bar for dear life like I wouldn’t be having my arms up 💀
I went to Bush gardens today nn I had my hands so tight on all of the rides even the tempesto nn the Griffin nn the pantheon .
I just wanted to say that 😂
So that’s why my bag doesn’t fall off when that happens
Speaking facts
@@DiariesofEssencenn
Poor animated bro has been through everything
He’s either really lucky or really unlucky
His life is hell 😢
Thats why when you do do loops with the grocery bag even tho your mother said not to, the stuff stays in the bag
The way He says *"PROBABLY"*
enhanced my trust issues
edit: *Take it as a joke don't try to explain things In reply section We know you are Sir Issac Newton's Reincarnation*
FIRST WARNING, LIL BRO!
DO NOT TRUST UTTP BOTS OUT THERE! IT'S A TRAP!
when he says probably he means the roller coaster is probably going fast enough.
if youre on a roller coaster and your seat gets loose you just better hope it doesnt go slow till the end.
💀
@@ReversedUTTPZNTPYFGA_stopbots whats wrong? he didnt do something warning like bro what?
that is mainly cause it depends on rollercoaster. slower loops may make you fall out. aswell tight turns and inverted turns will give the opesit effect. same with inverted loops
@@NoHandleName0 he did he was like “last chance n---, UUTP IS WAY BETTER THAN ZACK D FILMS” and stuff like “Imagine if Zack just had a stroke b/c my content is better” and stuff
Zack's viewers are starting to stop their phobia memberships after getting so used to his videos
yep. Yep. Yep
Did somebody call me?
@@zack067💀
999 to 1k
Why are you talking in third person like you’re not a Zack viewer?
My mum worked as a carny for years and always told us that the safety equipment were sometimes just for show as the forces in the ride basically glue you to your seat. I just want to specify the "sometimes" however since she also says that other factors weigh in like hight, weight and changes in speed can cause unpradictable outcomes which is why all rides legally require a safety bar or strap because its better to have it and not need it then to need it and not have it.
Edit: my mum saw my comment on my phone and wanted to add this: "next time your on a ride pay attention to how much you get pushed back into your seat vs how much you get pushed into the harness as that will show you just how safe these rides actually are due to the physics involved"
Why does this only have 7 likes and no comments yet more useless comments have more likes and comments 😭
Thanks alot for this knowledge i will keep it in mind
And now whats safer? Being pushed more into the harness or seat
@@walter3075 being pushed into the seat as far as i understand feom what they have said
@@walter3075 being pushed into the seat means that the ride is forcing you to stay on the ride. Being pushed into the bar or harness means the ride is trying to throw you off. Being pushed into the seat is easily safer.
I can say with confidence, the skydive is not one of them. (Variety of names, goes up, and drops straight down.)
Anytime I've been on one I can feel my chest hit the bar holding me in and my ass is not in my seat. I love that ride.
Respect for the person who tried this 🔥🔥
bro took "may the force be with you" to another level 💀💀💀😭😭😭
edit: HOLY FLIP TY YALL SO MUCH FOR 715 LIKES OMG-
Here before the bots
Nahhh This is an underrated commwnt
Ain't that a power rangers refence?
HAHAH
@@thestrongestbaconhonored .
Roller coasters do have sudden change in their speed multiple times. So, chances are for you to eject out super fast. Harnesses and seat belts are really important.
There are coasters that intentionally pull negative g's where you loft out of your seat. Sometimes in these rolling dives.
But most of the time the shoulder harness is to keep idiots from standing up or doing something else stupid.
dang we got 2 wikipedias here
I was not going on the roller coaster before but after watching this short I decided to go. However after reading your comment, I'm not going again
@@brud._.thedumoneya meant 3😅
Not in India
Final destination 3 tell me otherwise
Movies are sh*t compared to actual engineering.
Also in final destination 3 the roller coaster stoped in the loop, so there wouldn't be any momentum
Final Destination 3 (at the scene of the ride) is 99.9 percent fake
(The 0.01 percent of realism is the ride model)
•restraints on a coaster train do not close through the same control at the same time
•a small object cannot overpower a train full of humans which add weight to the already heavy train
•there are multiple failsafes in place in case one fails for a restraint
•major parks are more heavily enforced by law to maintain attractions and make sure that money givers (people) do not become money takers due to an accident
•(insert another reason that I don’t feel like typing)
@@WickedCycloneJoeRailfanning what
@@WickedCycloneJoeRailfanningYappatron 9000
Gonna have to try it PRACTICALLY... 🤔😅👍🏻
Yeah, only if g
bro dont we experience like 1-2 Gs on any rollercoaster with loops
You’re smart
but pseudo force is arbitrary, it doesn't exist
Only if what 💀
@@achintyakarthik7572some go to 4 with the most being 12
Special force ❌
centripetal force✅
Wrong, the centripetal force is the normal force plus the gravitional force. The centripetal force is the net force in this situation. The centripetal force is the force trying to take a passenger out of their seat, not keep them in.
@@M42-Orion-Nebula Centrifugal force which is pseudo force due to centripetal is the cause correct me if I'm wrong
@@Prakash_Nadarthere is nothing called a centrifugal force, By drawing a free body diagram and you will know, the ‘force’ you experienced is just inertia, thinking of when you are in a car turning left, but u will feel that the car push you rightward, that’s because of inertia, by maintaining the original direction and speed you’re moving if there’s no any force applied on it, that’s why an object is pushed on space will forever move forward. On earth u got friction when moving on a surface or air resistance, etc. that stop you.
@@Prakash_NadarCentrigual force isn't exactly caused by the centripetal force. It's not a reaction force to the centripetal, but rather a fictitious force that "appears" to be there as a result of inertia.
@Kami_mika220 both centrifugal and centripetal force comes into play
Centripetal force bcs The rollercoaster's
curvature and speed would create a
force pulling you towards the center
of the turn, keeping you in place Centrifugal force bcs As the rollercoaster
turns, this force would push you away
from the center, but since you're
upside down, it would actually help
keep you stuck to the seat
"Ok lets try that"
Famous last words
You would say words after that
@@Blackmonkeyface_1learn how to take a joke
@@Smartman434 you are the one to talk saying that I need to take a joke and I wasn't even missing a joke at all wdym
@@Blackmonkeyface_1 did you not see the “ or can you not take a joke?? (IM JUST ASKING)
@@Smartman434learn how to get a life
It already happened with me and my mom, we were holding the bar close to us the whole ride just to secure lol
Ferb I know what we are gonna do today!
Note: ooh just what did I do to get this trouble man, one says to other spam one, another says god or something
NO UTTP ALLOWED!
@UTTPisBetterThanDannoCal Usseles only cries when he sees popular youtubers
@@Benaptalim a Usseles bot t
Would you like to play gacha life with me
@@LreemssKukn go fake yourself
Physics: "I got you bro"
Physics on an airtime hill: ☠️☠️
Underrated😂
This is CENTRIFUGAL force, not centripetal
Centrifugal force is an inertial force, as in it technically is fictitious, but it's still referred to as a type of force even if it technically isn't
Preach my brother 🙌
If your frame of reference is the roller coaster car then it will seem like a force, just like how when you brake in a car it seems like you're being pushed forwards.
yup a pseudo force
Let's boost this one, it's awfully horror seeing how people are legit joking because they don't know about it
How is it centrifugal? It’s centripetal surely - directed towards the axis of rotation.
@@Eratosthenes_276 it's centrifugal towards the seat which you are sitting on, pushing you to it regardless of your position on the track.
That's called centrifugal force
Bro went from making fears to breaking them💀
For those who don't know, this force is called "centrifugal force"
Actually it's centrifugal, because the force is outside hence that person doesn't fall. And in centripetal force is inside
There is no such force, there is only the force pushing you towards the center from gravity and the perpendicular of the coaster, however it exactly enough such that you move in a circular motion
G force
Which is the name for the pseudo force that's actually just inertia
@@rishi8279 oh yeah, thanks
the guy in the animation saved himself from dying in the realest way possible
*When the ride stops:* 💀
"If the bar came loose٫ you'd probably see jesus" 👍
🤣 Amen
amen tbh
No seriously Amen✝️😰
There are more safety measures than you could possibly think you are more likely to see Jesus by just walking around the park and tripping
Huh that doesn’t make sense please explain
wow gravity tryna murder us while physics tryna save us
Lol
Lol
Lol
Lol
Lol
Ok but ngl why is he just putting his hands up… I’d hold the bar for dear life
frfr 💀
IKR 💀
Real
Same tho
Fr but I don’t think you can lol
Animators going crazy 🗣️🔥🔥🔥
Gravity: GET OUT!!!
Mysterious force: GET IN!!!
Right. The mysterious force is called inertia.
There is no special force. He is still accelerating. Acceleration makes him rotate. Net force on him is not zero.
⚠️ *Zack, this is dangerous misinformation. You need to stop.*
As someone who worked for a roller coaster engineering firm, I can tell you flat out that this is false. Almost all roller coasters exhibit 3 types of forces on riders: Positive vertical Gs, negative vertical Gs, and lateral Gs.
Only the positive vertical Gs (which occur during loops and valleys) will force you into your seat. Negative vertical Gs, sometimes called "air time" (which occur during crests) will force you in the opposite direction, up into the air. Lateral Gs (which occur during sharp turns) apply horizontally, and will throw you out the side of the car.
*So no, if your restraints fail, pull them back to where they should be and hold on for dear life. You will very likely die if you rely on this video's advice.*
Thanks for the explanation, I was wondering why we needed the lap bars (if this animation was correct).
Which manufacturer were you working for?
I've had one of these fail before and I really did hold on for dear life🙏🏻
YES! I immediately thought of the negative Gs but forgot about the lateral ones. That bar is definitely not for show
@pauhull why do you think it matters physics is the same regardless
That’s only if the you’re on the inner section of the loop. If you hit a part of the roller coaster where it swings you out, you’ll get flung harder than your keys when you spin them on you finger for too long.
Centrifugal force isn’t a good insurance policy for moi 👀
Amusements Parks After this video: Okay screw the bars in all rollercoasters 💀
@UTTPisBetterThanDannoCal We gettin' reported with this one!!
@UTTPisBetterThanDannoCalshut up bot get a dad💀
pretty sure its there so people dont slip off with sharp turns or something else.
Don’t give Intamin any ideas. 😅
@UTTPisBetterThanDannoCal
Holy shit he doesn't he god, he needs a ban
If the coaster has airtime, you’re going to get airtime.
Jf fn
Hangtime too
@@AirtimeAxolotl Make it ‘fall time’.
or laterals, such as a vekoma boomerang. why might I be mentioning a vekoma boomerang?
this video angers me both through the ground-up incorrect "physics" and because the premise is not true. you would fall out immediately if your restraint came undone
Props to the guy that tested this
Fr
😂
@@MR-EVERYTHING-608”MY PRONOUNS ARE USA”
My Pronouns Are “I ❤️ Oil”
@@MaybeTooToxicmy pronouns are banana
Respect to the guy who did this for Zack.
Incase anyone wanted to learn some physics today, I got you:
Said "special force" is called centrifugal force, and it's not the only one there. There is also the centripetal force, the one pulling the object back into the center of the rotation. Easily explained using newton's 2nd and 3rd law. For the second law all we need to look at the the formula F=m×a (force = mass ×acceleration), and since we're moving radially our "a" will be "a(radial or circular)" which is easily achived by the formula a(c)= v²/r (tangental velocity²/ radius). Once then you'll have the magnitude of the circular foces in your system, which leads into newtons 3rd law: "every action has an equal and opposite reaction" which gives us the centripetal and centrifugalforces, same in magnitude but different in direction. So, at the top of the loop you'll have both the force of gravity and the centripetal force pulling down, whereas at the bottom of the loop you'll have the centrifugal and the gravitational forces pulling you down. As gravity is always pulling down (duh), that force will always be in the same direction.
Hope this helped for anyone wanting to know :3
Aaahh but the centrifugal force secretly doesn't exist
None exists, centripetal force is an abstract consequence of inertia in this example.
Thank you for this. Saved me some time looking it up👌👌👌
Uhhhh… let’s hope that’s copy and paste
@@guilhermegigeck5946the centripetal force does exist, it's the normal force of the rail onto the train and by consequence the person + gravitational force at the top and - gravitational force at the bottom.
Edit: it has to be there cuz if it wasn't there they would just go straight, as for a rotation you need acceleration and for acceleration you need force
*Airtimes and Ejectors joined the call*
RMC finna end this man’s whole career
Airtime can still happen but that doesn't mean you will drop like a brick.
All fun and games till coaster actually slows down at these upside downs
Rmc
@@loki5041 True, but during a airtime (If it's at 0G), a tiny push with your feet and you'll "float out" slowly of your seat
You know it’s terrifying that he said “but that probably wouldn’t happen”
It’s actually like an acceleration force acting on u like when u are in a car where the car moves forward and there will be a force acting against motion that pushes u backwards
that's not an action-reaction pair. in that case, the action-reaction pair is between the force exerted by your body on the seat (acts against the car's acceleration) and the force exerted by the seat on your body (acts in the same direction as the car's acceleration). you are feeling the force exerted by the seat on your body, and that force causes you to accelerate forward. if this force was acting in the opposite direction, you would accelerate backwards and noclip through the car. I didn't understand classical mechanics until I grasped this
anywho the video itself is ground-up cap, you would not be able to stay in a roller coaster at all because the restraint works with the seat to push you around with the train, and that's why roller coaster restraints are designed to be impossible to open without external power
For those wondering (or losing their minds) there is no special force that keeps pushing you. It’s just inertia. Your body wants to keep moving in an outward direction when you go around a curve but the roller coaster car stops you, therefore you stay in your seat. There is no force acting on you other than the normal force from the seat or the force of friction. Centripedal force is something entirely different.
THANK YOU. Why was this so far down
i had a stroke reading that
Physics professors when their students mention centrifugal force.
You're 100% right though.
@@quixQuery centrifugal force is not "wrong" in a physics sense. It is just a result of using a non-inertial reference frame. If you use the reference frame of the roller coaster car, you should be using centrifugal force instead of centripetal. This is something called a "fictitious force," which many introductory physics students mistake as meaning that the force is "wrong" and should not be used.
@@SAKO723fr
My man zoro got lost again 💀
I was looking for this comment 💀
LMAO
“999 missed calls from Issac Newton”
😂😂😂
@UTTPisBetterThanDannoCalNo you don’t 💀
@UTTPisBetterThanDannoCalbro be quiet you got less than 300 subs & your channel sucks, also NOBODY ASKED SO YOU CANNOT BE TALKING
bro I bet this is a 6 year old writing this bragging about their dumb channel 🤷♂️ also who says the n word in comments that’s dumb :/
@UTTPisBetterThanDannoCalbro be quiet you got less than 300 subs & your channel sucks, also NOBODY ASKED SO YOU CANNOT BE TALKING bro I bet this is a 6 year old writing this bragging about their dumb channel 🤷♂️ also who says the n word in comments that’s dumb :/
@UTTPisBetterThanDannoCalbro be quiet you got less than 300 subs & your channel sucks, also NOBODY ASKED SO YOU CANNOT BE TALKING bro I bet this is a 6 year old writing this bragging about their dumb channel 🤷♂️ also who says the n word in comments that’s dumb :/
Not true for most new coaters. Only the classics. I've felt the force trying to drag me out of the seat.
If the bar came loose I am clinging on to that metal bar like I’ve never before.
(Most likes I’ve gotten?!)
@@theydontknow_official um sure
Your gonna need some strong grip strength 😅
@@7train916not really cuz he said you wont fall out anyway lol
mf you will😂😂 more likely for you to fall out cause the speed is reduced
@@N1ghtBerrie are you dumb bruh 😭, you obviously never been on a roller coaster
"Centrifugal force" is the term. Basically the idea that gravity is pulling you down, but you have this force that's keeping you up so you're not pancaked to the floor.
Thank you! :) Knew that as soon as the video started. No idea why "special force" was the only thing mentioned here, lol
I think its actually centripetal acceleration
Just like hot wheels
Centripetal force is just the general term that stands in for the actual force that’s being used, I forgot what that actual force is in this case bc I took physics a couple years ago but it might be normal force feel free to correct me if
@@jxnuary81its inertia
The way he said it PROBABLY wouldn’t happen 😭💀💀
It's becuause there is a factor which is how fast you go and how big the loop is
Until that turn… then you die from getting yeeted to the side.
There is no outwards force, there is simply tangential velocity such that you fall with the same velocity that the rest of the roller-coaster does
Centripetal force, maybe?? 😊
@Joe-nc8rx Lol search it up and you'll see centripetal force describes the inward force responsible for circular rotation
@@Joe-nc8rxcentripetal force directs inwards and is the force that accelerates the roller coaster in a circle. the name for this phenomenon is “centrifugal force”, which is technically a force that doesn’t exist, but only exists to explain phenomena like this one
@@Joe-nc8rxcentrifugal but yes
Bro looks traumatized while riding the roller coaster 💀
I would be too if the main safety feature on a roller coaster failed
npc comment
@@BlaketheBlock what
@@zoey5787 this is the most generic possible comment on a zackdfilms video
@@BlaketheBlock lol
Roller coaster restraints are designed in a way where it's nearly impossible for them to open while the ride is moving. On newer rollercoasters there are hydraulic restraints, where in order for them to open there needs to be hydraulic force applied. That basically just means that the restraints normal position is closed, and they need to be powered to open. Also there is a back up hydraulic cylinder, so if one fails there is a back up one The train of the coaster needs to be in the station, where if In the right position, sensors will connect to the train and only THEN the restraints will unlock. In the case there needs to be an evacuation (such as on the lift hill or stopped at block zone brakes) a staff member will need to bring a tool and unlock the seats manually. Not to mention if in some, astronomically small chance, the restraints fail, most trains have a seatbelt anyway.
This is the only comment I’ve seen that isn’t mine that points out seatbelts.
@@RageBoy21 Most roller coasters don't have any seatbelts, just a lap bar
I do not want to put that special force to test
"99 missed calls from Issac Newton"
ITS SIMPLE PHYSICS MAN
Did u know that the special force is called momentum?
Did u even watch the video
@@Floppainapringlesbox no I'm pretty sure it's centrifugal forces because you're spinning around the loop
@@vileguttscentrifugal forces is actually a myth. It’s a centripetal force but there isn’t a force pulling you to the seat, your just moving fast enough that the force of gravity combined with your velocity vector being tangential to the gravity that it only changes your velocity keeping you inline with the circle.
I would hang on the bar until the ride is over I ain’t dying today😂
The speed and forces could be so violent that it breaks your arms tho.
@@cheriekatBetter not just ride the coaster then
SpongeBob was onto something in that episode where he stayed inside
Thats what i had to do on the top spin in coney island when it was water boarding me
LOL SAME
The foot clipping through rollercoaster 💀
🤫🧏
I DID NOT NOTICE THAT.
Sadly had it happen at 6 flags. Accurate.