How FOUCAULT PENDULUM Works and Proves Earth is a Round SPINNING Sphere

Yeah, the earth got a party hat and I couldn't focus on anything else.

😅

If you actually cut a circle out of a piece of paper and do what he does, it'll be easier to understand.

This video really sucks. I can understand the math but there's 0 explanation of why this cone analogy works in practice, it's like a huge part of the explanation is just skipped over because the OP likely doesn't understand it either, which is why you don't hear the words "coriolis force" once in this video.

@@tomcass240 Here is the pendulum scam exposed by Dr Shoepfer who usd to build Foucault pendulums back in the day flatearthtextbook.blogspot.com/2016/11/our-earth-motionless.html Coriolis can only be a thing if spin was ball earth's only motion. You must do vector addition for the COMBINED EFFECT of all motions. Wee can debunk the globe by doing this for just 2 motions: spin + orbit + 21 mm/s/s alternating accel/decel every 12 hours or half revolution, experienced by everything on earth's surface, where is it? Nowhere! A rock balancing statue proves motionless earth. czcams.com/video/AfEbsnOXrX0/video.html Rigid body rotation with translation is the physics. Note the word "rigid" because only solid bodies can spin like a top see flat.wtf [ flatearthclassroom.blogspot.com/2020/11/centrifugal-force-based-on-rotation-axis-of-body.html ]
And that's the end of the glob!

I am copy pasting my comment from above so that you see that this isn’t a definitive explanation for how this pendulum works.
See below 👇:
Yikes-the Foucault Pendulum strikes again!
This is NOT evidence that the earth rotates. Sorry folks.
This USED to be considered a reliable “proof” that the earth rotates but the “general principle of relativity” changed all that. That’s because the principle allowed for both a “geometric” equivalence AND a “dynamic” equivalence.
In other words, there are not one ☝️ but TWO ✌️ explanations for the pendulum’s behavior:
1. The pendulum is behaving this way because the floor is turning with the rotating Earth because the Earth’s gravity is pulling on the floor but NOT pulling enough on the free-floating pendulum.
OR-and this is the part no one realizes…
2. The fixed Earth’s gravity will hold the floor still, but the rotating universe will create the centrifugal and Coriolis forces that pull the free-floating pendulum so that it turns against the fixed floor held to the fixed Earth.
This is why Einstein wrote:
Albert Einstein:
”…to the question whether or not the motion of the Earth in space can be made perceptible in terrestrial experiments. We have already remarked that all attempts of this nature led to a negative result.”
Source:
* Relativity - The Special and General Theory (1916), Part I: The Special Theory of Relativity, Experience and the Special Theory of Relativity
So while it is a very nice pendulum indeed-it doesn’t actually “prove” anything.

@@lightninlad Yo, Spam a lot, what's your highest level of completed physics?

And the music does help.

Eu não conseguir entender onde o pêndulo é fixado que o deixa livre da rotação da terra.

​@@felipedantas8153inércia cara. Se vc estiver girando em gira gira em um parquinho e jogar uma bola, a bola não vai acompanhar o giro do gira gira.

😂

You have to pause and work out all the math for yourself!

Thank you for your support. I'm glad my video helped!

the Griffith observatory was also where I learned that it's not every 24h, and that's where it stumped me... I'll need to rewatch this video a few times before actually understanding it fully tho!

So looking at the sky tells you the shape of your earth?
That does seem logical, actually there's no logic in that at all.

@@ruledbysaturn _“So looking at the sky tells you the shape of your earth? That does seem logical, actually there's no logic in that at all.”_
That's because you lack the intelligence and reasoning skills to think logically.
Which is proven when Flerfs claim their sun is a 51.5 km (32 mi) diameter object (you can't even agree on what shape it is: spherical/disc (thickness?)/flashlight/WTF?), circling over the FE at 4'828 km (3'000 mi) altitude (give or take[¹]), it can appear to set (fall; drop) below the plane of the horizon, when, from the furthest vantage point anyone might be able to observe it on the FE (theoretically at least, when _zenith_ to the Tropic of Capricorn it is observed in opposition from the South “Pole” Rim), its elevation would still be 10° above the horizon! THAT is not an insignificant elevation angle.
As seen from the North Pole, it would NEVER fall below 31° elevation, ABOVE the horizon when _zenith_ over the Tropic of Capricorn; and its elevation would never fall below 45.7° above the horizon when it's _zenith_ over the Tropic of Cancer. And yet you argue there's “logic” to the assertion it can “appear” to fall below the horizon, while 31°-45° above it!
🤔 Please do elucidate us, ol' wise one.
[¹] Samuel B Rowbotham (Parallax) claims it's _“not more than four thousand miles”_ in altitude, but his calculations suggest it's much lower than even 3'000 miles, if you do the trigonometry of his calculated angles and the distance between his observation locations in England-which he claimed were on the same meridian (they weren't)-as published in his book _Zetetic Astronomy-Earth Not a Globe!_
🤔 Where's the “logic” in that absurd nonsense?!?
Then there's the lack of a _“logical”_ explanation as to why we don't have hurricane force winds (or hear sonic booms) _every day_ caused by a 51.5 km diameter object (the sun) passing overhead, speeding through the atmosphere[²] at: Mach 1.57 (1'940 km/h or 1'206 mph) when _zenith_ to the Tropic of Cancer; at Mach 2.12 (2'623 km/h or 1'630 mph) when _zenith_ to the Equator; Mach 2.68 (3'306 km/h or 2'055 mph) when _zenith_ to the Tropic of Capricorn; and/or all Mach speeds in between as it moves between latitudes over the course of the seasons.
[²] The entire volume of space between the FE surface and the _impenetrable_ “firmament dome” is filled with an inert gas (atmosphere) under pressure (~1 bar; 1'013 hPa; or 14.696 psi), which according to you “logical” dullards, keeps us all pressed firmly down upon the Earth's surface. (NOTE: Without gravity, _there is_ no _atmospheric pressure gradient_ with an increase in altitude; no _atmospheric pressure gradient_ means no _“lensing effect”_ in the atmosphere, since lensing occurs only when light passes through transparent mediums of differing densities.)
You more-ons can't even agree on what the radius of the Equator is, for that matter-🤔 is it 6'378 km (3'963 mi) as measured on the globe Earth, or is it 10'019 km (6'225 mi) as measured by the arc segment distance between the North Pole and the Equator (on a globe Earth)?!? (The elevation and speed of the moving sun provided above are based upon the latter equatorial radius.)
I could go one, but I honestly don't have the time or the crayons to explain the rest to you. When brain-dead and shamelessly stupid Flerfs claim to have a monopoly on logic, all I can think of is: _‘how Dunning-Kruger of you’._
*Dunning-Kruger:* _'Those who know the_ *least* _think they know the_ *most.'*
*Tuteur Corollary:* _'If they don't understand it, they think it's a plot to harm them.'_

@@ruledbysaturn too much for your small brain I guess.

@@RogueInsect
Cheers indeed.

@@RogueInsect
Sticks ? Huh.
Lmao yer funny.

Search for "Foucault pendulum video Australia" and you'll find some.

I did the same at the Griffith Observatory in Los Angeles back in the '60s 🤓🌐

@@frankhooper7871 it was neat watching it move and pass the markers.

Very cool pendulum at the Smithsonian. When I saw it, I wondered whose job it was to walk around at the end of the day and set up all those little pins that the pendulum knocks over.

@@scottk3292 I did too

and this proved rotation of earth,right?Wake up! Watch Foucault pendulum prove Earth's rotation by Eric Dubay

Glad it helped!

@@StickScience in case you don’t frequent the globe-flat earth community, op was making a reference to bob knodel. The man who measured earth’s rotation of 15°/hr with a borrowed $20,000 laser ring gyro, but hid the results from his flat earth buddies until he came up with an “appropriate” excuse. Fortunately for everyone he blabbed on himself when the documentary crew for a certain Netflix documentary came along. Smh.

@@sphaera2520 _"Interesting"_ ..............................

where are the actual videos of Foucault's pendulums swinging? Why are you showing us pictures on the screen?

Well. How about repeating the same set up at different latitudes and compare the data. If there is mechanical issues how would you explain ways getting the same result as predicted for the latitude?

@@kitcanyon658 awesome, of course flerfs are scared of performing Eratosthenes experiment all of the globe at the same time. But I would still love to see the mechanism maintaining the swing

@@Kolopsych Just doing one FTFE likes to show where the physicist uses a sandbag, ink and paper with a long rope and burns the holding line from its highest position before the swing goes long enough to see motion over 40 minutes, no mechanism, or magnetic pulse to keep the pendulum swinging just plain and simple to eventualy get an angle from the starting stroke to final stroke.

@@Kolopsych In some Foucault pendulums found in museums and public exhibitions, additional mechanisms such as electromagnetic drives or periodic "kicks" are employed to help maintain the pendulum's oscillation. These mechanisms are introduced to counteract the effects of air resistance and other sources of energy loss, ensuring that the pendulum continues to swing at a consistent amplitude.
By using electromagnetic drives or periodic "kicks," the pendulum's oscillation can be sustained, allowing visitors to witness the gradual precession effect due to deception of evil men trying to control our world and make us believe there is no God but they are to be trusted.
The Foucault pendulum experiment is a fake scientific demonstration not proof but to deceive people into believing the earth is turning.

It's best to not introduce any external forces, like through mechanical assistance, to get an accurate result. In any case, a tall enough pendulum in a draft-free environment would work long enough to prove the point that it precesses as predicted.

Makes no sense... First of all, every pendulum in the world uses electromagnets as a way of controlling its rate and speed, so they're only for show, nothing more. But more importantly, if the Earth indeed turned under pendulums, it would also have to turn under everything else that's detached from the surface, which it clearly doesn't do.

@@rap1df1r3 you can create your own foucault pendulum to make sure there's no electromagnets and you'll see the same effect due to Earth's rotation 👍 everything that is swinging experiences this effect.

@@rap1df1r3 "Navigating with a gyroscope would be impossible if the Earth is turning."

@@dwayne20110521Same with a sextant as it proves flatness, which infers it can't be spinning.

​@@rap1df1r3what is there that is detached and stays still for 24h?

Well you probably want to have some way to prevent any airflow between bodies to effect the other.

where are the actual videos of Foucault's pendulums swinging? Why are you showing us pictures on the screen?

надо попробовать

@@AlexeyAstafyev : Are you unable to search CZcams for such videos? There is a icon shaped like a hand held magnifying glass that you can click on and enter text of something you want to find.

@@kitcanyon658 please please send me a link to the video of the southern hemisphere puco pendulum. I can't find anywhere.

all Foucault's pendulums in universities/museums have an electro magnet to keeps it swinging. Couldn't that same electro magnet be giving it the slight spin clockwise/counter clockwise depending on how they set it up?

@@frankdrebin2343 "Couldn't that same electro magnet be giving it the slight spin clockwise/counter clockwise depending on how they set it up?"
Yes they could. But they are set up so that they DON'T impart a bias in the swing.
What's more, a whole lot of pendulums have been done without the motor.
They eventually stop swinging, and the results show the precession very clearly.
You don't need the "motor" to do a Foucault pendulum.

@@sissyfus6181 thanks for your reply. I've seen videos of non-motor pendulums. Like you said, they do stop fairly quickly. It would be interesting to see exactly how the magnet works and if it does or doesn't impart some left/right motion to the pendulum.
Most museum websites and articles about the pendulums don't even mention that there is a motor keeping the thing moving. It's a shame they keep it a semi-secret because the fact that the results could be affected by the motor and magnet is a bit disconcerting to me.
What about my other question, how can there be a "fixed point" that doesn't rotate if the building is rotating (plus the magnet/motor giving it a 'push')? What have you heard about that?

@@frankdrebin2343 " how can there be a "fixed point" that doesn't rotate if the building is rotating"
The fixed point as you call it is in effect a free swivel, a universal joint which allows the pendulum to rotate freely around its fixing point as it swings. You can set the pendulum swinging in any axis you want. You could set the pendulum swinging in a fashion that it would be swinging in a circular pattern. Looking top down at the pendulum, you can set to swing at any point of 360 degrees. If you choose to pull the weight back to 90 degrees, then release it it will initially go to 270 degrees.
When it is carefully set to swing in one axis, it remains on that axis.
"It's a shame they keep it a semi-secret because the fact that the results could be affected by the motor and magnet is a bit disconcerting to me."
Well I kind of agree with you there, albeit for different reasons.
At a permanent Foucault display, the pendulum is the star and what happens behind the stage is not seen as being as important. I don't think they are trying to keep it a secret. I'm sure some permanent displays go into details about whatever mechanism is being employed. But I would be very interested to know all about the method of mechanism being used, just from a point of electrical engineering.
You might find it interesting that as a teenager, I (with some friends) built a Foucault pendulum. The fun thing was that we built it within a hundred feet of a permanent display pendulum. From our observations on a pendulum built with construction site stuff, we determined our latitude to a fraction of a degree. We were pretty amazed that we replicated results of the permanent display pendulum at a fraction of the cost, built with junk.

@@sissyfus6181 I don't think any museums go into specifics about their exhibits. In fact, they really don't seem to like the questions. It's a show and you aren't supposed to ask about back-stage.
Art museums don't like talking about how many of their paintings are replicas and how many of the "marble statues" are actually plaster casts (maybe with a little marble powder added in) - like the statue of David. That is obviously not carved out of one piece of marble but the museum sure wants you thinking that it is.
So I would be incredibly surprised if any Foucault exhibit is straightforward about how the mechanism works.

ah yes😎😎

They "swing" or precess clockwise in the northern hemisphere and counterclockwise in the southern hemisphere.
Hope that helps.

I have an even BETTER question-how do you know that the universe isn’t rotating and exerting a centrifugal and Coriolis effect which causes the pendulum to rotate while the earth itself remains fixed?
Answer: There is no way to know if that is what is really happening. That’s why Einstein wrote:
”…to the question whether or not the motion of the Earth in space can be made perceptible in terrestrial experiments. We have already remarked that all attempts of this nature led to a negative result.”
Source:
* Relativity - The Special and General Theory (1916), Part I: The Special Theory of Relativity, Experience and the Special Theory of Relativity

​@@lightninlad Using classical mechanics, you can predict the precession rate of the pendulum at any latitude. Measuring the precession rate at a few latitudes would be enough to find the rate of rotation of the Earth and showing that it is also round (spoiler alert: this can be done and will verify the predictions). Hence, even if any centrifugal force was applied on the Earth from rotation of a larger ensemble, this has a much smaller (insisting on the "much" here) effect on a pendulum on Earth than Earth's rotation.
Also, the quote you used from Einstein is (1) not complete and (2) incorrect. (1) Einstein finished this quote with: "though the Earth is revolving around the Sun." (2) Just before where you start your quote, Einstein was writing about the Michelson's inferometer, an optical instrument. You quoted Einstein as saying "terrestrial experiments" when in fact, Einstein used the word "optical", referring to the inferometer and other optical experiments.

@@alexandreaudette6591
Yes, Einstein was making an assumption based on NO EVIDENCE. I know he ended the quote that way. That’s why it’s so bizarre. He just got done insisting that the earth rotates around the Sun but he neglected to give any proof for that. Additionally, no-Einstein knew that all of the observations regarding the pendulum would be exactly the same if the earth wasn’t moving. You would get the exact same measurements. That’s what relativity means. The pendulum IS a terrestrial experiment. It proves nothing.

@@lightninladNone of what you said is either accurate or sensible. Congratulations.

@@lightninlad rotation is detectable just fine, einstein wasn't talking about rotation, he was talking about the earth's orbit around the sun. Orbits aren't locally detectable without some external reference because they're just freefall

Too incompetent as a teacher to come up with your own way of explaining it? Typical.

Glad it was helpful!

No, it isn't. This is insanity!!!

where can i see the footage of the foucault pendulum in the southern hemisphere? australia? south america? send a link to the video. really want to see

@@clcagwin Navigating with a gyroscope would be impossible if the Earth is turning.

Think of it this way: If you ring a bell, then rotate the bell while it is ringing, do the vibrations move with the bell? Or do the vibrations stay stationary while the bell rotates?
This is the same concept.

It is a ball joint. And let's assume that it is frictionless. So any spinning of the fixed part of the joint would not affect the pendulum.

its a near frictionless joing / hinge

Great to hear!

math was never my thing, i must admit

where are the actual videos of Foucault's pendulums swinging? Why are you showing us pictures on the screen?

The false narrative of earth nah u can keep it thx

@@954MrSayre then how FE explain Foucault Pendulum?

@@954MrSayre LOL. Says the guy who can't math his own magical fairy tale world. How lame, bro. Seriously.

He showed no real pendulum. Just bs you fool.

@preFire-954- I doubt I'll get an answer since you're all full of shit, but I'll ask anyway. How do you explain snipers hitting long distance targets if the earth isn't round?

the pivot is frictionless (or near frictionless) in this type of pendulum.

I think you're mixing up a variety of factors. In particular, those 23 degrees would be the angle between the equator and the ecliptic, the rough plane where we find the sun and planets. The angle between the equator and the Earth's axis is 90 degrees, simply because that's what defines the equator, and neither affects how far the pendulum moves anyhow.
The directions that do involve the pendulum are: the direction the bob is swinging, the direction it is falling, and the direction to the attachment point. The attachment point and the fall direction are both fixed to the planet, so they only change direction because the planet rotates. (There are smaller influences too, but we're looking at a time scale of hours to days, where the daily rotation dominates.)

Sorry about that. Hope you stay safe.

❤️

No it is not. and you can perform it yourself easy

where are the actual videos of Foucault's pendulums swinging? Why are you showing us pictures on the screen?

@@AlexeyAstafyev Because he doesn't have proof, the ones in a museum are powered by magnets. If he really wanted to prove something he would provide the video 24 hour timelapse, no cuts in the video and no magnets. but he can't do it

@jarekt_v2 👍Yes

@@Jarektv2 so you have no proof for thst wild clsi. Whatsoever.
Just do it yourself at home 😅

Say, if you could attach a pendulum to a drone/helicopter, the same effect will still take place. This is because of the coriolis effect and the point of the experiment was to prove that the earth is rotating. A flat earth would not be able to achieve this same effect. The second point instinctly proves that it's not a flat earth because the location of the pendulum on the sphere would show different effects it would have at different latitudes.
This is no different in trying to explain how a stationary helicopter "moves" with the earth's rotation? Same argument when people say an airborne object like a helicopter staying stationary should see the ground move underneath it but it doesn't. The "stationary" helicopter drifts with the air mass caused by coriolis. If that wasn't the case, we would be exposed to winds up to 1000km/hr as the earth rotates beneath the "still" air above. But that doesn't happen does it? So, the air is mostly moving with the earth's rotation and airborne objects move with it. Hence why aircraft/birds need power to move against it to get from one place to another horizontally. Otherwise, it would be virtually free travel. Just jump up in the air for a while, hover for a bit and land in a different spot at a later time. But no one's been able to do that have they?

What you just said makes absolutely no sense.

When the building rotates (with the earth), the pendulum simply rotates around it's vertical axis. That is, 'it spins in place on the wire''. But that motion is not side to side like the 'swinging' motion. Imagine you took a marker and marked just one side of the 'bob' so that it faces the front door of the building. Then set the pendulum swinging. The 'marked' side will always face the door. But at some points during the day it will be swinging to/ away from the front door, and other times it will swing side-to-side across the doorway. But the mark will still face the door all day/night.

@@mikefochtman7164 nope, that's false. The pendulum doesn't rotate, everything around it does. The pendulum is maintaining it's relative position in 3d space.

@@AndreasEUR Try again. I was talking about a different motion from the 'swinging'. If you think of the suspension wire, clearly the top of the wire is fixed to the building. And the 'bob' is solidly fixed to the wire. If the 'bob' didn't keep the same side facing the front door, the wire would get twisted around and around until it broke. Maybe the word I should have used is 'revolves', to separate the motion I'm describing, separate from the plane of the 'swinging'.
Simply get a pen and put a mark on one side of the bob and notice that it's always facing the same side of the building as it swings all day. As the plane of the swinging appears to rotate around, knocking down the little pegs, the marked side of the pendulum is still facing the same side of the building.
So we can say that the plane of the 'swinging' is fixed in 3D inertial space and the planet moves under it. BUT, the bob 'revolves' at the end of the wire with the building, facing the same side of the building as the building rotates around the earth. Two different motions.

You are forgetting the key ingredient to flying.. air speed. Planes are constantly adjusting plane direction to account for air speed especially cross wind.

Hi fred, hope that you are well. "the ground below the plane would be traveling 1038 mph eastward,"...not with respect to the airplane it won't. The aircraft was rotating with the Earth before it took off, this means that it has angular momentum. It does not magically lose this angular momentum when it takes to the air. It is still rotating with the Earth when it is in the air due to this angular momentum. Take care.

Yea you are completely ignoring the air. A plane flies through the air. So sure, relative to being an outside observer the plane on the equator like you mention is going fast as eff, but both the earth and its atmosphere are essentially locked into the same speed. You may as well be upset that a person can swim "faster" than humanly possible down a river.

Watch the video again until you understand!

You forgot the laws of motion. An object in motion STAYS in motion unless acted on. The plane ALREADY was moving 1,000mph with the earth on takeoff. And same applies to the fluid the plane travels through. Yes, I said fluid. Air mathematically is just like a fluid

lets see.
rate of precession predicted to be is caused by rotation the rotation of the earth and the latitude of the pendulum.
NO OTHER explanation can be attributed to explain the rate of precession.

@@entangledmindcells9359 but this application can be applied be it flat or round , it doesn't matter , in fact I'm not even a flat earthier but it would make more sense on a flat version than round

@@MarkSmith-jo2bf A flat earth motionless earth has no explanation for the rate and direction of precession?
Why would the rate of precession be at the max the poles, 0 at the equator and the direction is opposite on the two sides of the Equator.
A spinning Globe predicts this

@@entangledmindcells9359 who on earth though that if the earth was flat it was motionless 🤣😂 utterly ridiculous notion. If the earth was to be flat it would be rotating , and a pole on the outer and north pole on the inner would make more sense on a pendulum that being round , as on round the north is above and south is below , this would bring a pendulum to a standstill , unless its a machine driven pendulum in that case none of it would make sense

@@MarkSmith-jo2bf "I'm not even a flat earthie" and you just parrotted a bunch of FE garbage..
Have fun trolling someone else.

The pendulum is purposely built of non magnetic metals.
Some have even been a bucket of concrete.

The plane doesn't hang quasi frictionless above the ground. It as angular momentum from take off and surrounding massive air mass. Foucault pendulum does prove earth turns because it starts from a high point motionless. If you jump inside a train in movement at 300km/h you won't get smashed at the back of the carriage, because you have the same angular momentum, you are part of its referential. But if you jump from a platform onto a train at that speed, you are turned into Human Parmesan.

@@AlexandrePRODHOMME The airplane is not attached to the ground, it is in the air. Air doesn't have any bonds and moves freely in all directions, not tethered to the ground. Your argument is that earth drifts (turns) underneath a pendulum, so then it must also turn underneath other objects in the air not attached to the ground. It doesn't, so therefore your argument is not logically consistent.

​@@TB-xx8vj You chose to ignore the demonstration right after I made. Listen, I didn't make it much further than high school physics but I still remember it and you can read it too online. Conservation of momentum, and the importance of angular momentum. How did the plane get in the air? It took off. Therefore it's referential is Earth+Atmosphere. If two planes were flying side by side and you walk from one wing, you could potentially jump to the other wing (given you are not too high, too fast etc obvs, just an example) but it is true as that's how airjet refuel. They reach same velocity they are therefore in synchronous speed. The pipe dangling from the jet to attach the other plane does not hit the other jet at 1000km/h. Relative to the other plane, it's almost static. Being attached to the ground or not has NOTHING to do with relative speed. Angular momentum is everything in the case of plane since when the plane take off it takes the momentum of the earth. At no point it can remove itself form it. That's high school physics, it's Newton's laws.
Also you are mistaking of measurement of rotation and moving at speed. The pendulum only measure rotation. Just rotation.
First, the pendulum suffer of minor bias from the moment of the throw, but the way it is attached at the top makes it a low friction hang, pulled by gravity. It is part of the earth referential and the dome so no, you won't see it fly out of the wall. The only (or greater) forces are gravity pulling it down and the initial push on a plan of swing, therefore yes, it continues to swing on that plane and as the swing continue, the ballhead attachment at the top is the one rotating to keep track of the tremendous force of the swing and gravity pull down, as the dome continue to rotate with the earth.

@@AlexandrePRODHOMME You are making a begging the question fallacy. You're starting off with earth moving by claiming there's a conservation of momentum. You're no longer proving earth is turning but just assuming it. This is a classic example of circular reasoning. An argument that uses fallacy is invalid. And as I stated, the air is not tethered to the ground and objects in the air would have the ground also drift (turn) underneath them if earth turned. It was your claim that earth drifts (turns) underneath a pendulum. If true it must also drift (turn) underneath other objects in the air. It doesn't.

@@TB-xx8vj The pendulum only measure one force, the earth rotation. It's not a fallacy, you make an hypothesis, and then make assumption on what the observations should be, and then devise an experiment which proves, or disprove the theory. In the other end you are only offering negation based on your sensorial approach to your surrounding which is the most prone to BS, but offer no explanation for other phenomenon. You can't explain the behavior of the pendulum. Which, when he was designed wasn't even trying to prove the earth rotate, we knew that then, just that it's measurement could be made here, at small scale, even with closed door without seeing the sky. Which it does. Which you can't offer an experiment nor a mathematical model to precisely describe it. Until you can do this two things, everything else is blah blah blah

you don't usually observe a wrecking ball swinging for extended periods of time in the same place. as to the electricity and magnetism, they HAVE to use it in order for the pendulum to keep swinging, otherwise it would slow down and eventually stop and in exhibition pendulums in museums you don't want that. also, using electromagnetism you can add energy to the pendulum not changing its direction. if you want to see a Foucault pendulum without any of these systems, there has been plenty of these also done, including experiments by people on youtube.

Wrecking ball is joined at a fixed point, Foucault's Pendulum is not, it hangs from a point which is able to move. That's what was the genius of Léon Foucault's discovery.

They do not use electricity and magnetism. Look at the gentleman physicist video. Zero magnetism. But tmthe pendulum works.
Sorry, you are wrong.

@@AndreasEUR Neither did Foulcart idiot

@@gowdsake7103 ? I never claimed he did??

Which magnets?

From the way you phrased that, you were already really close to understanding why. Think about someone floating above a fixed point on the equator. The Earth's spin takes you directly east, so the floor doesn't appear to rotate under them. On the poles you are aligned with the Earth's axis of rotation so the floor rotates below them once every 24 hours.
Now walk 100 meters (or a 100 yards) away from the pole and turn east. If you start walking east and want to keep walking east, you have to turn to make a circle with a radius of 100 meters. If instead you'd turn eastward at your initial point 100 meters from the pole and just kept walking straight you'd go to the equator, further south to a point 100 meters from the other pole and then back to your initial spot. Unless you're on the equator, east is not a straight line. The direction of east rotates as the Earth moves, so the pendulum rotates (or from the perspective of the pendulum, the Earth rotates underneath it).

@@Hugh.Manatee This explanation is so much better than this terrible video. Glad I read the comments.

😂

Your brainwaves are flat

Not to you it didn't.

Wow your THAT dim ?

The video explained everything, but you understood nothing... There's a difference!

​@@chrisantoniou4366
Presume much?
Obviously you do.

​@@chrisantoniou4366
Hey dude or mamn, if you can't touch it or measure it? You are now speculating. Is that what your entire identity is built.on? That's so sad.

It is. That's why it swings towards the ground.

Some do and some don't.
Keeping on swinging is not the point of the pendulum.
The fact that they precess as a function of latitude is the point.

There are real pendulums you can see all over the world that demonstrate this or, if you'd like to save on gas, go out to the garage and build one yourself. If you want a visual to go along with it, use a piece of string and a paint bucket full of paint, with a hole in the bottom for said paint to dribble out of. Spin the pendulum in a loose oval and watch the magic. I recommend having a piece of wood or canvas underneath to capture it, it makes fascinating art.

@@jasonmack760 He can't find his way out of mum's basement.

Hi j, hope that you are well. Here is a list of many (but not all) the Foucault Pendula around the globe. You can go and visit them yourself. Take care. en.wikipedia.org/wiki/List_of_Foucault_pendulums

where are the actual videos of Foucault's pendulums swinging? Why are you showing us pictures on the screen?

Grow up.

If you're not smart enough to understand the physics then stick to flipping burgers.

well, no, we have a foucault pendulum in our city ;)

So disprove it. Where are your sources?

To every denier, like yourself, false information is simply information you don't like. It's validity is not relevent to the likes of you.

First, you need to learn how to use animation software(adobe animate, toon boom etc.), which might take a few days just to learn the basics. Then you may need to learn how to use editing software(Premiere, final cut etc.) depending on your work flow. Which might take a few days to learn the basics. And you'll need to learn some kind of audio recording software(Audacity, Audition etc.). Also a few days to learn the basics. You might want to draw some of the background with photoshop or similar software. Maybe a few days to learn the basics. And you might want to use some 3D models. In which case you'll want to learn how to use 3D software such as Blender. As for the difficulty, it's not the most difficult thing to do but it is challenging. Keep in mind every second of animation consist of 24 drawings. So in order to create a 5 minute animation, you will have to draw a total of 7200 frames(24frame*5min*60sec). Animation software does most of the work of course, but it's still very time consuming. Hope that helps!

@@StickScience thanks for doing it

@@StickScience Now help us not to be deceived! Navigating with a gyroscope would be impossible if the Earth is turning.

@@dwayne20110521 Wrong. Actual navigational gyroscopes need to be made to account for the turning of the Earth. Literally EVERYTHING about navigation needs to account for the spherical shape of the Earth and the fact that it is turning.

Earth is fat and motionless. It is not flat.

@@Chicken_Little_Syndrome Earth is obviously not motionless.

You mean like magical domes and ice walls?

Its called REALITY sorry about that

So what does the pendulum have to do with anything? Why are we using a pendulum? The earth isn't on a swining string or an invisible string swinging so how can we compare a pendulum to earth?

@@wyominggirl2835 Well you could research the gyrocompass for the next iteration of the technology.
Care to tell us how IT works?
Then I could explain the fiber-optic gyros as well.

So helicopters should not be able to horizontally take off and land in the same spot

@@matrixception-uo2di Learn about "Conservation of Momentum".
High school physics is a good start.

@stuartgray5877 learn to understand a point and a paradox and maybe you'll figure it out

Because the pendulums are not of a magnetic metal.
Look into it.

Thanks for watching!

en.wikipedia.org/wiki/List_of_Foucault_pendulums

It's a kind of universal joint that allows it to swing in any direction unimpeded.

No, but they are related. Both the Coriolis effect and the precession of Foucault's pendulum are caused by preservation of angular momentum. The Coriolis effect is the apparent curvature of an object moving freely in a rotating reference frame. The pendulum remains in the same spot (at least it's centre of oscillation does).

The pendulum is not "anchored to" the ceiling. It is connected to a universal joint that allows the pendulum to swing freely separate from the ceiling.

I believe you mean "Inertial"

@@rocketman484 do you know?

@@shirfree Because existing on the surface of the earth is NOT an "Inertial Reference Frame". You are under the acceleration of gravity.

@@stuartgray5877 you are spinning with the earth though, so relative to the earth you are not spinning

@@shirfree Sure. So that IS a "rotating reference frame" and if you are using coordinates within that frame then your coordinates do not indicate any type of spin.

You need a big hammer to set them in motion.
Try it and see, and report back.

it doesn't matter if the pendulum is attached to the moving floor. You can test this out your self, place a pendulum on a spinning table and place a camera on the table. The pendulum will seem to move in circles from the perspective of the camera.

@@Caaro99 - Laughs in cranes all over the Earth that aren't spinning wildly out of control.

@@ItsMeScareCro : Says the guy who doesn't even understand whole point of this video. Another classic flatter fail. Sucks to be ignorant, son. Get a real education.

@@ItsMeScareCro Ah, the whopping speed of 1 rotation per 24 hours

@@ImieNazwiskoOK - at over 1,000 mph... Ready to purchase that beach front property in Oklahoma?

Latitude, but yes.

@@JustWasted3HoursHere oops, my bad :)) I keep confusing these two all the time.

@@zx3215I used to do the same. They should have named them something easier to remember, like "side-ittude" for longitude and "updown-itude" for latitude. :)

@@JustWasted3HoursHere 🤣 yes, this would solve a whole lot of problems :))

@@zx3215The way I used to remember them is that "latitude" sounds like "ladder-tude" and you use a ladder to go up and down; and "longitude" made me think of Pinoccio's long nose, which extends out from his face (rather than up or down). It's silly but it used to work for me when I was a kid.

The pendulum is free to swing in the same plane that it started to. It is hard concept to grasp so I would just recommend that you go view other Foucault pendulum videos and see in the physics start to click in your mind a bit.