Gravity is not a force. But what does that mean?

Gravity is a force, and space doesn't bend due to gravity. The density of space increases near massive object due to the gravitational force. The existence of Dark Matter shows that space is material. General relativity is not a quantum theory, and it doesn't explain the high gravitational force that make Black Holes during the supernova explosion. Neutrinos can be the cause of gravity because stars emit neutrinos from their 99% of energy of the supernova explosion, making pressure to make a small Black Hole.

​@@smlanka4uinteresting statements care to explain that to us chimps?

You left out tidal forces, which break the premise in the video's title.

Quizwithit asks for registration to see the correct answers :/

You should have given the correct answers 😜

I tell this to both family and friends and they tend to do the same so don't feel alone 😅

That's just the life of a husband.

Well, don't try to explain this to regular people. For regular people and for practical purposes gravity is a force.

Very Funny, I’d wished to of been there 😄👍

She cared enough to pretend to care, that's a good start

So much of a construct; right?

@@kleinerprinz99 Statements that start with “It’s vert simple,” and then simply miss the nuances are always fun.

This so much.
I think it'd have been much more helpful to better explain the spacetime model with geodesics, worldline and gravity's role within it rather than vaguely affirm what gravity is not.
For most layman Newtonian gravity is the standard which makes special and general relativity particularly unintuitive.
The fundamental differences between inertial and non-inertial reference frames are very important distinctions to explain Fictitious Forces you mentioned.

There’s no reason to not consider pseudo-forces to be as “real” as a “real” force. “Real” forces are mediated by virtual particles, which are themselves not “real”, so why do those forces get special consideration? They shouldn’t. A pseudo-vector is just as “real” as a normal vector.
This entire video is just pedantry.

I have a vague sense you might be able to explain this better than Sabine does. It makes no sense to me yet. Maybe it is just a matter of language. Seems to work quite well for me (and most of the world's scientists too!|) to think in terms of the 'force of gravity 'pulling me onto this chair! Will I really benefit by pretending there is no such force??! Or calling it something else. First I guess I will have to find out what people mean by an inertial frame of reference as opposed to any other kind...

By C300

Veritasium has a video on the same topic years ago, I think he did a pretty good explanation

As a Star Trek fan , this is very disturbing. How can we travel without gravity, our bodies were designed to work with gravity. I can not accept the ability to create artificial gravity. ✌️

@@rayRay-pw6gz Speaking as a professional SF editor, while artificial gravity has been a common feature in SF stories and novels for decades, the writers have fewer ideas about how it might work than they do about warp drives or FTL drives in general. As SF ideas go, it's certainly one of the most unlikely. But we keep using it anyway because it's so convenient. This kind of winking compromise with physics is why the genre is called “science _fiction_”!

@@MosheFeder 😀. Reality sucks ! Thanks . 👍✌️

😂😂😂

Lol! But it is “relative” easy to understand reading books of G. Gamow (Mr. Thompkins…)
Btw: People, who say, they understand quantum theory, don’t understood it.

"PLASTICINE", perhaps...? ;-)

Say pleistocene better@@MrKotBonifacy

@@MrKotBonifacy no he likely means Plasticene, as an informal "geological" epoch nomenclature, as the last part of the current age called Holocene, which is further subdivided to Anthropocene, an epoch in which all humans tend to be terminally guilty for existing. Needless to say these are all unofficial addendums, and are mostly there for rhetorical and socioeconomical purposes, of which Canada is a prime consumer.

@@milanstevic8424 Wonderful, but definitely wrong. OP obviously meant Plasticine because thats putty and thats what children tend to eat, and its not a food group. So your Chat GPT/wikipedia blurb doesn't add much to that.

Well, it was a joke. As Sabine likes to do. I can assure you that we don't have physics in Kindergarten here in Germany.

Not something different, simply wrong. If you teach wrong things in school, you shouldn't be surprised when people say those things.

I agree. It’s like an unripe plum. No matter which direction you approach it from, it doesn’t become any more palatable.

Thankfully the phone didn’t ring.

@@robert-wr9xt huh :D

@@Slitter_the_Dubstep
New to the channel?
Sometimes she has a red phone on a desk. It rings and she answers it. Charlie Brown adult voice talks on other end. She makes comments and hangs up.
You’ll laugh. Have a nice week.

You lost me at " In the 4D General Relativity equations, gravity never accelerates any object--they will always move at a constant "4D velocity" ..... until they interact with an outside force." How do objects interact with an "outside force" ? The ball rolling around on a rubber sheet, "captured" by a mass sitting on the sheet is NOT interacting with an outside force but it is changing its relative velocity and is therefore being accelerated.
Or is that the wrong way to understand this ?

@@onedaya_martian1238 A ball rolling on a rubber sheet is touching the rubber sheet. The atoms in the rubber and the atoms in the ball are repelling each other by the electromagnetic force. The ball travels in a circle because the sheet is pushing it that way.
If the sheet (and the air) weren't there, then General Relativity would say that the ball would travel in a non-accelerating trajectory through spacetime, which is curved by the strong gravitational influence of the nearby Earth. To our perception, the ball would seem to accelerate because it increases its speed with respect to the dimension of altitude. But, in General Relativity, it's not accelerating when you analyze it in the spacetime equations. Space and spacetime are not the same thing.
I had a hard time with this concept when I was younger. People would usually describe relativistic gravity by explaining that an object in orbit travels on a "straight line in curved spacetime". That kind of made sense to me, but what about if a metal ball were to fall straight down, starting at rest, from 1000 kilometers above the earth? That doesn't seem like a "constant spacetime curve". The ball starts at rest, then is accelerated to hundreds or even thousands of km/hour before it hits the atmosphere. Well, I had a breakthrough in understanding when I studied the General Relativity equations and realized that their definition of "non-accelerating" is in 4 dimensions. An object can accelerate in 3 spatial dimensions but be non-accelerating in the 4D spacetime equations.
I get a little irritated when people use the rubber sheet analogy to explain Relativity. The only way to really understand it is in the 4D equations. Gravity doesn't curve space, it curves spacetime, which is a mathematical concept.

@@onedaya_martian1238 The rubber ball contacts the rubber sheet. The atoms in the rubber and the atoms in the ball repel each other with the electromagnetic force.
The point I was trying to make is that General Relativity uses 4 dimensional math. People say that gravity "curves" space like a rubber sheet. It's much more than that. Gravity curves *spacetime* (there's a difference between spacetime and space). If gravity only curved 3D space, not 4D spacetime, then I think that it could explain how moving objects could orbit the planet, but I don't think that it would explain why stationary objects fall straight down. The fact that they are 4D equations enables gravity to actively morph 3D space over time. The altitude dimension of 3D space around a planet is constantly shrinking. According to General Relativity, a ball dropped from a tower doesn't fall because of gravitational "acceleration", it falls because the space underneath them is actively contracting. That morphing of space isn't considered to be acceleration. In spacetime coordinates, the object isn't moving. Once the ball contacts the ground, it does accelerate due to the contact force. After bouncing for a while, the ball settles on the ground. Gravity is contracting the space under the ball, but the earth is accelerating the ball upward. To us, the ball seems like it is at rest, but it's actually under constant upward acceleration that counteracts the shrinkage of the altitude dimension.

​@@jeremypearson9019Interesting. It kind of reminds me of a flat earth theory which states that gravity is just the earth moving/accelerating upwards at 9.8m/s/s. But what i wanted to actually ask was about the seemingly perceived acceleration of free fall, or rather in this case according to your explanation, the increase of rate contraction over time. Like it's possible I'm missing something really simple which explains it but i dont really see why it should be the case that we "accelerate" in free fall

The flat earthers seem to have borrowed the acceleration/gravitation equivalence to make their ideas seem more scientific. But Relativity actually matches with observation and is mathematically sound and the flat earth theory fails miserably.
Your comment got me thinking: imagine you had two balls. You drop one of them from the top of the Tower of Pisa, then, when that ball reaches the middle of the tower, you drop the second one alongside it. The first ball will have a much higher velocity because it has already had time to accelerate, so it will speed past the second ball and strike the ground first. However, the two balls travel along the same path at the same time--straight down. If their motion is explained solely by the curvature of spacetime and not by acceleration due to gravity, then how could they move differently while occupying nearly the same space?
Well, the short answer is that 1. the math is very complicated and 2. I don't actually have a sound enough understanding of this particular case to give a satisfactory explanation. It just goes to show that when we talk about Relativity in layman's terms, the analogies that we use don't adequately explain straight, vertical falling. It's been a long time since I studied it. The bottom line is that the 4D math is complicated and the analogies we use (like the ball rolling on the rubber sheet) don't really do it justice.

Yeah she certainly proved beyond doubt that Einstein was indeed a fraud and his "theory" is a worthless hunk of junk didn't she? Garbage is garbage no matter whey you try to spin it.

yes, but maybe not.

I think this ia why we haven't and will not see a subatomic particle for gravity since it's a force like nuclear and electromagnetic

The thing about General Relativity, is that this _is_ all that it says about gravity. It exactly describes how gravity works... but not _why_
Why does mass and energy curve space? Yeah, it just does, and we can calculate exactly how much and stuff... but what's the actual mechanism? Why should geodesic worldlines converge towards the largest pile of confined energy, and curve away from a vacuum. What is the mass (or vacuum) actually *doing* ?
General Relativity just says that the spatial distance between two points shrinks as the time distance increases... that's it, that's all it says. It's not very satisfying. It really is just pure geometry.

Nobody puts gravity in a corner! 😂

So the matter matters. It makes a curvature within which lifeforms like us do our stuff. This mean planets matter.

Pffft this is beyond stupid. If gravity wasn’t a force it wouldn’t do anything.

​@@chrisstevens-xq2vb just because you're incapable of understanding does not make a complex set of ideas stupid. The stupid is you 🤷

​@@chrisstevens-xq2vbIt's just another lie from big globe. Stay strong, brother.

​@@chrisstevens-xq2vbIf you don't understand, you can say that instead of being rude.

@@chrisstevens-xq2vb Gravity isn't "doing anything". Gravity is the natural fall of mass toward other mass due to the curvature of space-time. It's a description of the structure of space-time, not "doing something".

"The most common sin physicists commit in my opinion is confusing models for reality." is probably the truest statement to be said about modern science.

I like that. 👌🏻

​@@harmless6813Lines that intersect are not parallel by definition.

It seems that latitude lines are parallel, but longitude lines are not since they intersect.

Nah it's the force of love 'cause we gay for each other

@@acebulletman7389a latitude doesnt have a "line" besides the equator

if you allowed the accelerometer sensors to freely fall, then they would read zero during the free fall, so they are calibrated.

Effect.. for gravity? I'm not familiar with that effect in that context.

That's a false analysis. No you cannot feel gravity. But that doesn't mean it's not there. You don't feel air around you when it's still. If your submerged in the sea you don't feel the sea around you. But in fact as you decend to deeper depths your body is compressed. Equally on the moon where gravity is much this has an effect.

As Absolutely fascinating as absolutely meaningless.

If 'mass' does not exert a force on spacetime then why should spacetime experience any warping?

It's not the space alone that is curved, but the space-time. As time passes, you are moved in space in a direction of a nearby object with a large mass.

It's because that apparently curved path is actually a straight line (or sort of one, the search term you want to look up is a geodesic) in 4d space. Imagine a 2d being walking around on a 3d curved object, like a sphere. If they plot their coordinates in a 2d grid and move around, they'll notice some really weird things about their movements. For instance, if they were to try to walk in an equiangular triangle by moving in a straight line for a fixed distance then turning 60 degrees (both measured according to their 2d grid) 3 times in a row, they won't end up where they started, as on a curved surface the angles of a triangle don't add up to 180. But to the being that only knows 2d space, there will appear to be something weird deflecting their path.
Similarly, assume two of these beings standing at the equator of a sphere. They move in opposite directions along the equator at the same speed, and then, at the same time, both turn 90 degrees towards the north and starting moving north at the same speed. In flat 2d space, their lines are parallel, so they should never meet, and yet they both meet at the north pole. To them, it looks like something is dragging them towards the north pole.

Maxwell equations are linear, and thats why they can be represented as a field of vector """particles""" (photons) that interacts with electrons and so on. Gravity apparently doesn't fit in this formalism because it is inherently non-linear and defines the same coordinates that are used for the calculations. Edit: actually even "non-linear" fields can be quantized without issues, for example Higgs or phi^4 terms. But as far as I know that's it ? Not sure tho

@@drgetwrekt869
I'd say linearity (none-linearity) should not make any difference.
But AFAIK:
If gravitation is not a force, electro magnetic interactions are no force, too.
(But this is a kind of definition only?)

@josefpharma57.. Difference is in the origins: electro/magnetic forces have quantised matter-energy as a direct cause for forces exerted. Gravity is causing forces, but itself it's just a constant of spacetime bending per general relativity. The latter have no particles or known fields carrying or causing the forces created. It's like acceleration without an engine doing the work, while still carrying the accumulated potential energy.

Spacetime is not a technically not a force, but gravity could be, and the cause/bits of space time could/SHOULD exert a force. Unless you believe space is empty or some nonsense like that..

⁠​⁠@@dannydetonatorbut if EM forces require work, like an engine, why don't I quickly run out of energy from all the EM acceleration from sitting on top of the Earth?

But, this approach mess up with the minds of your students. İt's impossible to "unlearn" something unless you lose your memory.
There should be a better approach.

@@Feroand No need to "unlearn" anything. Just add to current understanding. We teach three states of matter in early science education because children don't have the capacity to understand plasma and theoretical states of matter. We teach Newtonian physics because kids don't have the capacity or math education to learn relativistic physics. The omissions and "corrections" can come later, when students have the capacity to understand them.

@thisuserhasaname, yes your argument is valid. Electric and electromagnetic forces are recognised as forces, but due to a lack of understanding, gravity is not seen as a force by some (which it is of course, sorry Sabine). The wider community of Physicists STILL haven't got a clue what gravity is. They must discard Einstein's theory in order to move forward. He was very good at describing effects, but he was not good at identifying causes. This is a major issue with General Relativity and Quantum Mechanics - cause and effect are divorced, which has led to misunderstanding. We will never make leaps forward if we do not get past this paralysis.

Who says a spring has to be made of a material that can be affected by magentism?

Gravity is the bending of spacetime in a 4th conceptual medium per Albert Einstein it's an effect not a force. (Pseudo math formula for a conceptual medium)
This replaced Newton for mass does not attract mass i.e. 🎈 ☁
Not 1 single scientific (natural phenomenon independent variable and dependent variable) experiment has even been conducted to prove Gravity!

If you were to experience being pulled by a magnetic field (say you were wearing a suit of steel armour) you would feel the force, when in free fall you feel nothing. Oh and electric and magnetic fields are the same thing.

@@187nemesis3 Who says Dr. Hossenfelder's spring has to be made of a material that can be affected by gravitation?
;^)

NIST FAQ 31 - "the top of the WTC north tower came down essentially in free fall" - "as the floors fell more and more weight fell on each floor below" - in free fall?
www.nist.gov/world-trade-center-investigation/study-faqs/wtc-towers-investigation

klauswassermann8054
It is, and back in 1915 it was a _such_ a big deal for a reason. 🧠

Things on earth fall only when Nothing Is Pushing Them Up...
As we speak, do you feel a force on top of your head and shoulders, or do you feel a force under your feet and butt? The only way you can fall is when the force you can feel...underneath you...is removed. When sitting in a car that is accelerating forward you will feel a force of being pushed on your back, not on your chest. You will always feel the pushing force of acceleration on the opposite side of your body to the direction of the force causing the acceleration. When a force pushes on your body your body pushes back on the force, what you feel is a resistance to being pushed. In free fall there is no pushing back, you feel no forces on your body, therefore there is no force in free fall. Einstein would call the acceleration one sees in free fall apparent acceleration. Velocity is the speed that is relative to your surroundings, whereas acceleration is not relative to your surroundings. Acceleration is absolute. F = ma...and real acceleration gives mass weight, where weight is the mass resisting the acceleration.

Is gravity a force? Now my answer will depend on why you want to know. Lol.

@@RobertStCyr-zh1tw Gravity is not a force unless it's the year is 2001, especially September, and especially in NYC.

It's more like water then? A calm still ocean until something acts on it, then it can become something that has an effect on other things like a wave?

Here's another perspective.
I turn a teeter-totter on its side and apply pressure on one end and someone is resisting on the other end. Am I applying a force? Does the resisting party experience a force?
The commonplace language of levers would say "yes". They are forces and can demonstrate acceleration, if the resistance is removed.
Put the teeter-totter in its proper configuration and put a fat kid half way down and a little kid on the other end. And hold up the fat kid's end. Is the fat kid causing a force against my hands?
No. Because of the Sabine youtube video effect: I'm accelerating the fat kid. I get tired of the Sabine effect and let go of the fat kid's end. Does the light kid accelerate upward?
No he doesn't. Because there are no forces involved here; gravity is not a force You sit and scratch your head and say, but wait a minute... . But I've gone from the park to watch a Veritassium video: "Energy doesn't flow in wires", or something equally confusing.

Glad I'm not the only one that feels that way. It also feels like this whole video would fall apart when discussed in the sphere of quantum mechanics.

"Don't ask what is holding down the ball in the middle of the trampoline. It's too confusing."

Irene is great but this is ridiculous dogma period it's a mathematical analogy. Her tortured attempts to avoid using the words push or pull. Gravity is a pushing force. Force. See LeSage theory of gravity and think about how that relates to dark matter

It is not a semantic trap, it is just "instilling cognitive confusion". All this mess doesn't have to do with basic logic, let's not talk about Physics. It is implicit that Physics is about representing and understanding our world / reality.
A thoughtful person cannot be but relativistic. But being relativistic such a person discards the Relativity Model because he/she would apply the Occam's Razor - choosing the simplest from the possible models (of "reality"). Between "when down to earth we are in reality accelerating" and "we are down to earth due to a gravitational force", we choose the second one since it is the simpler representation of (whatever could be) reality. Reality is what/how we perceive it, and we perceive it in a way that is easier to think about and infer laws and rules.
Try to ask her to explain the acceleration and curving of space when it comes to tide moving due to the influence of the moon. Even if she / they succeed in giving an inevitable abstruse relativity curving-space explanation, they will implicitly give a proof that their relativistic model is counterproductive because excessively abstruse. The curvature of space is utter nonsense. Curved compared to what? Anyway you cannot perceive the eventual curvature. Immagine beings living in two dimensions. For them it is flat. They can live on a curved bidimensional surface seen from a 3d, but for them that curvature cannot be pertinent in any way. The same holds for the so called "curvature of spacetime" - it can eventually be seen from extraterrestrials that live in superior dimensions, but for us it is just a sophistry nonsense.

If the shed collapses soon after being finished, most builders will gently point out that you accelerated it upwards too fast. Nothing to do with inferior materials or construction methods.

@@every1665 Not sure if that argument would stand up in court. Engineers are supposed to anticipate the unexpected and build in some safety margins. Nobody expects the Spanish Inquisition of course, but come on. Look at my shed. It's in ruins!

Quite. There's no force pushing you down, but that doesn't mean you're not going to fall when you remove the force which is pushing you up. It's not entirely incorrect to refer to the latter as the force of gravity. It's just semantics. The force due to gravity would be more accurate.

​@@every1665 that's what I tried telling them 😢
Just like that time when they accused me of punching that kid.
Little do they know, atoms never touch
So no I didn't punch him

​@@mikegale9757 it would be as correct as saying that the centrifugal effect is a force, which can simplify things a lot in certain cases

Yes, but only in flat space-time, not curved. Also there is no fixed point in space that you can measure your position from anyway.

Gravity is not a force by direct measurement, and has nothing necessarily to do with relativity.

Well in the case of a two (space-like) dimensional manifold with intrinsic curvature... or extrinsic curvature as a hill in a three dimensional embedding space (with no time-like coordinate) What happens to two 2D creatures walking in straight parallel lines a constant distance apart from each other, when they encounter the hill, is that even as they continue to walk straight, the distance between them will change. The 2D creatures might interpret this as a mysterious force that is moving them either closer or further away from each other... but there is no force... they are not actually accelerating... they are still on straight line inertial paths and feel no force... but the distance between them is changing because the space between them is curved.
This is General Relativity... it's just like this except in a 4D Spacetime (so the time interval between events can also stretch and shrink, and it will look like things are mysteriously changing velocity without accelerating, but it's actually just spacetime curving).

@@juliavixen176 Yeah, I'm a programmer and writer of fiction trained academically as a philosopher, so I want to write stories and craft games with a meaningful and accurate portrayal of science on characters that are digestible to regular people. My limited understanding of physics can be frustrating in that endeavor, especially since I know enough to know that I don't know anything (as Plato would say). It seems like what you wrote essentially confirms that my example might be a meaningful and accurate portrayal. I appreciate you taking the time to explain it better than I can. I hope you don't mind that I might borrow some of it.

@@dougdupont6134 Dont be frustrated, if you go down the rabbithole its like a Hydra.
Every answer makes a few new questions and in the end you are rarely understanding, but you are still just realizing that there is more and more that you dont understand. (youd still be in platos place)
In my Opinion its a good thing, it leaves more room for the fiction :3 if not, wouldnt it be just science?
I have read so many good books with physic that dont work out.
But without the "wrong" physics you couldnt tell the story.
Jules Verne for example.
With correct physics as Dogma most of his storys dont work out and you would have a very hard time to find a possibility to tell a similar story.

That's really cool! So it can be imagined as falling into a Whirlpool and streching like spaghetti

@@juliavixen176
I liked you other comment (though I do not remember what it was about).
you say «when they encounter the hill, is that even as they continue to walk straight,»
It is a hill for you, looking from outside, from a superior dimension, their "walk straight" from from 3d pov is not "walk straight" from their 2d pov. Their "walk straight" would put them to walk with constant distance between them, but could present some other "irregularities", like the impossibility to maintain the same distance while walking at the same speed. I usually use the example of 2d to try to show that there's no way 2d's can imagine seeing them from a 3d, or that they should be that conformist to buy into an abstruse 3d model if they already have some another explanation that is simpler. The main point being "Man is a measure of all things". What "exists" is the representation of the "reality". While the abstruse and overcomplicated curvature of the "reality" should be left to parrots.

The issue with this analogy is the issue with sabines video. It's just wrong to say you don't accelerate in free-fall. You keep accelerating (unlike the leaf, which will reach the speed of the water and stop getting faster) - as in, your relative velocity to objects resisting gravity continues to increase. To say you aren't accelerating at G is to redefine the terminology - the unit of measure of G is it itself metres per second per second - acceleration. It may be the accelerometer is seeing past the curtain of apparent acceleration but it requires us to redefine our terms so as to make them meaningless.

@@forsakenquery Thanks for your note. I think what you are describing is exactly what the Einsteinian revolution is about; it does involve redefining terms. :)

@@michaelyaziji but...that's not a revolution. That's just semantics. Einstein offered a different view of reality. Either it's a flawed view, or these science communicators (of which Sabine is usually one of the better ones) are failing. Because you can't say "you aren't accelerating" while ignoring the acceleration we observe without explaining what you mean. Acceleration means "change in relative velocity with respect to time". It doesn't mean anything else. The idea that it is absolute while velocity is relative is circular nonsense.

>> "It's just wrong to say you don't accelerate in free-fall."
If gravity is the accelerating flow *of "space" itself*, you are weightless in freefall, simply "going with the fllow".

@@soopergoof232 I'm not making an argument about weight. I'm saying your relative velocity changes.

Exactly where I get hung up, and why I end up thinking it’s a force after all.

And I would have thought his speed relative to the building would change ie he would be experiencing accelerations ... ?!?

And for a non-massless spring the extension proportion (strain) of the spring is not uniform. The end that is attached extends more and the free end extends 0, proportionally, right at the end, because there is no mass attached to the end. It seems to be shown as uniform in the animation...

Why would you assume a massless spring for this discussion?

@@HughCStevenson1 Yes. In effect, it measures (the manifestation of) weight, and it would be more intuitively clear if weight is attached to the spring rather than the non-uniformly distributed weight of the spring is measured with an additional complication of changing distribution when the spring extends/contracts. In simple terms, when you use scales, you do not determine the weight of the scales, but the weight of the item whose weight you try to determine.

Everything moves in a straight line when under no force. Since gravity is not a force, the Earth is under no force. So why does it orbit the Sun? That's not a straight line, right? Actually, it is. The sun's mass warps spacetime's geometry such that a straight line gets bent around the sun. Geometry itself is warped.

I can't get my head around 1+1=3, mainly because it's not true!

@@vibaj16 OK, but why does the floor push on me?

Think of it as deceleration instead of acceleration and the quarter will fall (decelerate :p)

@@fewwiggleit doesn't you push on it because you want to free fall the the center of the earth, but the floor is in your way. Your atoms do not want to be in the same spot as the floor atoms, so you are stuck in the cosmic water slide because a fat kid called "the floor" is blocking it.

Also in school you learn Newton's gravity, not General Relativity.

I don't know, but it's Einstein redefining things without giving it a new name..

Also, just because acceleration can be measured (with an accelerometer), that doesn't imply it can't be deduced by observing its (relative) velocity and applying Newton's equation for acceleration ( a = dv/dt ) as we were all taught to do in high school.

Sabine shut me up..i cant seem to absorb any of this lesson

@@DanielCheng yes that does happen. Sometimes I wish life was more simple. But I want the truth.

Exactly. Thank you. It is arguably somewhat addressed near the end, but indeed one should lead with that.

Acceleration is relative, my friend.

Acceleration is a change in velocity, there's nothing different about how she explains it here. I'm not sure where your confusion is coming from, maybe it's because you're still assuming distances and time are constant (newtons model), but the reality is that the speed of light is the only constant, and acceleration is absolute, and distances and time are relative.

@@rivergladesgardenrailroad8834 I would love to have a cousin named Acceleration, so I could truly say Acceleration is relative.

In general relativity there are only local inertial systems, that is, inertial systems that are (approximately) valid in the vicinity of a point in space-time. An inertial system is by definition a coordinate system in which Newton's laws of motion holds. Thus, these are the coordinate systems that do not accelerate. In Newtonian gravitation, there are inertial systems that cover the whole universe. For example, this means that an object in free fall towards the earth will have an acceleration with respect to such an inertial system. However it will not have have an acceleration with respect to a local inertial system that follows the falling object, and that is was is dealt with in general relativity. In Newtonian gravitation, a freely falling system will experience a cancellation of the gravitational force by a so called fictitious force that arises because the system is accelerating with respect to a global inertial system. For example, a local inertial system could be attached to a space station orbiting the earth, since the gravitational force is cancelled by a centrifugal force. An observer in the space station that does not look out, will not be aware of either force, though, and will not detect any acceleration or any gravitational force from external bodies; a fundament of general relativity is that gravitation and acceleration are equivalent. In Einstein's general relativity, both the Newtonian gravitational forces and the fictitious forces can be thought of as being absorbed into the space-time geometry. Still, the claim that gravity is not a force is rather pointless if you ask me, since you cannot describe gravitational interaction using only local inertial systems, but chacun à son goût.

"the light basically blue shifts from bottom to top" That is not correct. Light sent from the bottom to the top will arrive red shifted as the rocket accelerates away from it while light sent from the top to the bottom will arrive blue shifted as the rocket accelerates into it. Just like in a gravitational potential.

😄

We need to understand the word "force" has different meanings in context. For practical engineering, gravity is considered a force. The English language is full of such words with multiple definitions.

@@viktorm3840 Yes, the (usually unspoken) assumption is that the box is small enough that all tidal forces/effects of curvature are too small to be measured. Otherwise you can just let two objects fall side by side and notice that they don't fall exactly parallel. And when falling into a black hole, the eventual spaghettification will quite violently tell you that you are not just floating in free, flat space.

The reverse is true too. I.e., the Coriolis force is in fact gravitation.

@@viktorm3840the vomit comet chooses a frame with no gravity. And no one cares about tidal forces, which is why the word local is used.

@@__christopher__ or you could but an earth mass black hole in your elevator and then even your though experiment doesn't work.

I feel the same. I am beyond grateful to people like Sabine, who attempt to convey complex physics to the layperson. But videos like this just remind me how little I know. 🤯

I like how gravitational force is used to demonstrate that gravitational force is not a force because of geomethry of nothing. It's like 1 apple and 1 bannana: 1 = 1.

Just wait until you realize that the reason things fall is because your head is moving throught time slightly (like 0.00001 nanoseconds or something ridiculously small) faster than your feet, which basically takes your flat horizontal floating line and starts curving it downward (falling) to the ground. Time passes at different speeds depending on the curvature of space time, so that's further away from the planet move through time slightly faster.

I find it helps to think of space and time as part of the same thing... spacetime.
After all, that's how causality works (faster through space = slower through time and vice versa). When you take time into account, everything travels at the same speed, the speed of causality (cause and effect).
From there, understand that time passes slower nearer a massive object, such as the Earth. Therefore, in order to maintain the same speed through spacetime, your path must be in the direction of the slower time... towards the object (or down).
An object in orbit is not travelling a curve, it is travelling a straight path through spacetime.
The difficulty comes from starting off with simple analogies that are very different from the reality. At the heart of space, time, speed and the gravitational effect is one single thing; causality. It is constant everywhere and for eveything.

I'm not a physicist and I've seen too many videos to recommend one, but a moment that "clicked" for me was the realization that if you see someone throw a basketball and watch it curve up and back down into a net, you are not observing gravity, but are watching the ball travel in a straight line through a curvature in time (mostly in time; space itself is "flat"). For more related videos/channels, check out PBS Spacetime, especially "Does time cause gravity". Sabine has another video titled "You move through time at the speed of light". Science Asylum has "The REAL source of Gravity may surprise you". And then, to confuse everything, Fermilab has "Is gravity a force?". Have fun!

Can we really talk about upwards or downwards in this context?

Sabine explained why acceleration is absolute and not “relative to some other thing (earth)”.

@@EdwinMartin she did, and it made no sense. The definition of acceleration is "change of relative velocity with respect to time". If acceleration is absolute but the thing that defines it and it derives from (both conceptually and mathematically, acceleration is the literal derivative of velocity) isn't, then logic is broken. You can't just make words mean different things. Use a new word if you want for this idea of "acceleration without experiencing force".

@@forsakenquery In our Newtonian world it doesn't make sense, in Einstein's spacetime it does make sense. It's fascinating! 🙂

@@EdwinMartin no, it doesn't make sense as the words don't have variable meanings in science.

@@forsakenqueryExactly. It makes sense to me only if acceleration is defined to be "what an accelerometer measures." Otherwise, if two objects leave the earth, moving with equal velocity and equal and positive increase in velocity with respect to (WRT) the earth then their acceleration WRT each other is 0 while their acceleration WRT the earth is positive. So is that what Einstein did? Redefine acceleration? Or is it more subtle than that?

Same problem.
The bowling ball on the trampoline illustration is used to explain the reality behind our naive notions of how gravity works. But the illustration makes sense to this naive person only because it implicitly shows a world with an up and a down and a bowling ball that goes down, just like our naive ideas about gravity say it should. This seems circular and evasive.
I am very willing to accept that there is no way of explaining physics to ordinary naive people such as me. You can't teach even Aristotelian physics to dogs or goldfish -- why should we imagine that all people can understand Einstein? If something can't be explained, that's the end of it -- a pretense of explanation accomplishes nothing.

Because mass also causes the time of curvature not only space curvature. Every object in this universe is moving with 'a speed of light' as GR says and that makes the object move towards mass as if there's a force but this is just a visual illusion. Since we can only visualize 3D space, we cannot recognize the axis of time dimension. But it is still there although we can't see. The Earth causes the time curvature and time moves slowly as you get closer to the Earth. Since we're all moving in the time dimension with a 'speed of light', the delay of time which is closer to the Earth side causes you to move towards Earth. Space curvature works likewise but it is only relevant when the two objects have the motion vector that is different from the axis between the two objects (if two objects aren't just free falling to each other but moving to other direction as well).

it doesn't. I think is the answer. f=ma is the math to explain the movement, gravity is the explanation for how they move.

Maybe the only thing moving is space, not the object …🤯

Something something rotates you with respect to time but not space or something. The Science Asylum guy did a good video on this.

The "Gravity is not a force" theorem(eme). Acelleration is only absolute to it's starting point. NOT TO CURVED SPACETIME EITHER.

Not a physicist by any means and I'm only repeating what I heard. As space\time gets squeezed the matter is said to be a singularity. Now I haven't a clue as to what this means. They use the term singularity at the big bang. Also, as much as I understand things, the Plank length is the smallest that energy\matter can go with any meaning.

Sabine was describing falling into a very large black hole, for which the gravitational field is uniform over short distances. You could cross the event horizon without realising it. If you fall in a strong gradient, different parts of you fall at different rates which causes the spaghettification.

Because the earth's pressure and the "infalling space" have an equilibrium. That equilibrium defines the earth's size.
If gravity were stronger, the earth would shrink until the pressure increases enough to balance it again.
If it were weaker, the earth would grow until the pressure decreases enough.

General Relativity is much more fun than Corporal Punishment

@@pholdway5801 both can lead to Major Issues!

@@pholdway5801 Chacun à son goût.

None of the theories of relativity define an absolute rest frame. WIthout that, how do you apply the light speed limit to any inertial frame?

From my understanding since retiring from teaching physics high school pre uni level, is this. Read a great book, why e equals m c squared by brian cox and a mate, I think that is where I got this.
IN general relatively, the clocks run slower (ill need to check, faster or slower the point is the same though) as you move further away from a mass. With big ones like Earth. That gives the illusion of acceration as the relative velocity at the mass is different than away from it. So this is a bit like say travelling from the equator to the north pole (in my case south as I am in Australia), but you want to go in a straight line (no warped sapce time due to no mass), but space time is curved due to the mass and that bends the line to the pole, as on a globe. The effect is you are made to conintually change direction (or it feels like it) as your path is being constantly corrected or resisted by the curved line between the pole and the equator. This gives the effect of acceleration but is not a force, it is like centripetal or centrifugal force by analogy. This makes the clocks run at different speeds at different disatnces from the mass. SO cool.
I really want to re read all that but cant find the book in a local bookstore ie Sydney CBD rats. Ill need to try harder, it has disappeared from my library.

@@briancrowther3272 I guess one can use a clock inside "Einsteins elevator" to tell wether one is beeing at rest on a planetary surface or accelrated in space then? If it ticks differently when at the bottom compared to ceiling, one is at rest on a planet, and if there is no difference, one is beeing accelrated somewhere in space?

@@heisag You're right, if you can detect a non-uniformity in the acceleration then you must be in a gravitational field. This doesn't contradict the equivalence principle, because the equivalence principle is only talking about a uniform gravitational field. BTW, you don't need a clock to detect non-uniformity, just make measurements with the accelerometer in different places.

You could try imagining a rocket hovering 1 meter above earth's surface. It's rather obvious that the rocket needs 1g of thrust to keep hovering above the surface and avoid falling down. If the rocket needs 1g of acceleration to maintain the same distance to earth's surface then earth's surface must be experiencing exactly the same acceleration as the rocket does.

@@JerehmiaBoaz Okay, except the rocket isn't accelerating. It's hovering, like you said. Now I get that's what this entire video is about, but if we're going to change the definition of something so fundamental, we should really lead with that, and replace the old meaning with something else. If the earth was accelerating upwards in all directions in a Newtonian sense, it would constantly expand. That's why people, myself included, still don't understand this. Pressure -> force -> acceleration, sure, if there is movement. If I press my hand on the wall, I'm exerting a force, but nothing is moving. No kinetic energy, no motion, no acceleration.

@hu5116-Sabine already did a video on does time cause gravity.

Does time cause gravity? Need a video on this pls!😅

@@S.L.S-407ok thanks! I guess missed that one so need to track it down.

Floatheadphysics channel has a video to help visualise this rather neatly, he uses paper cutouts to show how it's the bending of time that causes gravity

Everyone is missing the fact that the force of light is acting upon every frame of reference. I don't know what was wrong with Einstein. If he was truly ignorant since the majority of his work was plagiarized. Or of he was just out to scam people. The fact that the entire scientific community still worships at the alter of relativity just goes to show that mankind is not that far removed from the Neanderthals and still has an inherent need to worship false gods.
Newton's gravitational attraction was disproven with the hammer&feather drop tests and Einstein’s relativity nonsense should have never been taken seriously given the absoluteness of light.

Maybe I'm a neanderthal @@stewiesaidthat , because I don't know what you're talking about.

@SmallFry900 the speed of light is constant and travels in its own frame, so your motion relative to the light's source changes the amount of force acting upon your frame. Since nothing can travel faster than light, that makes it an absolute.
There is no gravitational attraction between objects as evidenced by the hammer&feather drop tests. All of the current models use mass as the force multiplier. Newton's law of motion, F=ma, shows that acceleration is the force multiplier. Mass is inert. It has no force without acceleration. Einstein tried to get around this fundamental law of nature by assuming mass just magically warps space. Space is nothing. It has no properties. How can you warp something that is nothing? What space contains is energy fields. The permittivity/fabric of space is electrical energy. To warp the fabric of space, you need an electromagnetic field generator. But this only affects electromagnetic energy waves as in light. This is why Einstein’s relativity nonsense falls apart when the mass is electromagnetic. E=mc. Atomic energy converts to radiant energy. The laws of physics are equally valid in all frames of reference. Except for Einstein. He makes up new laws of physics for every frame of reference. Special Relativity? The force of light is still acting upon your frame of reference.
General Relativity? Gravitational attraction has been disproven, and GR only 'works' when the mass is atomic in nature. Relativity is junk science, and the only reason it exists is because it produces a result that is 180 degrees from reality. F=ma. Which is the force multiplier? Mass or Acceleration? By using mass as the force multiplier, you get gravitational attraction where the earth is trying to accelerate you to center mass. The reality is that center mass has the lowest rate of acceleration, and you are being accelerated outward and forward at the same time creating curved space. The frame of reference is acceleration as outlined in Newton's Laws of Motion. It doesn't matter how much mass there is. It's how fast it is traveling in space.
You can have a generator sitting still. It's in an inertial state and not producing a force. Put it in motion, and it creates an electrical field. F=ma. The bigger the generator and the faster you spin it, the more force it creates. Acceleration is the force multiplier. Without acceleration, mass has no force.

​ @stewiesaidthat's comments are unrelated to my initial comment, let's get back to topic

@@xl3710 Newton's Laws of Motion, F=ma, is the only valid physics. There is no gravitational attraction between objects and you can't warp something that has no properties.
Accelerometers only measure the force being applied to a frame of reference. It doesn't explain what that force is. Both Newton and Einstein erroneously implied that mass had some magical property that made it a force. As shown by countless experiments, mass is inert. It has no force until it is placed in an accelerated state. That leads to the question, what puts mass into an accelerated state? There are two schools of thought, the universe was put into motion with the big bang or it was always in motion. The simple fact is that gravity is the result of acceleration, not the cause of it.

A word salad is not the same as an explanation. And Sabine is very good at producing word salads that explain nothing.

@@Benevezzioficial Relax! Did you read the entire post, the last sentence?

Name the paper(s).

You mean like the Coriolis force is velocity dependent? So how would the experimenter determine that it's not just that the cabin is rotating?

If two bodies are falling in a gravitational field won't the distance between them reduce as they get closer to the centre of the earth? That wouldn't be the same as an absence of gravitational force where the distance would remain constant.

>distance between them reduce
No, it won't.

@@mikenewey3949 Yes, it would. But if the box is small enough, and the time of measurement is small enough, the relative movement will be too small to be measured.

Thanks! Wish you happy holidays 🎄🎅

Yes, Sabine is quite a … um … force.

@@keithscott1957😉

She make me a lot of laugh this time..

Although a nice explanation I feel it is incomplete. For example it doesn't explain why gravity still accelerates mass while is not a force, what happens with the body once the whole earth suddenly disappears(will it continue moving towards where it was the center of the mass, stay still or will it go towards the direction where it was pushed by the force of the surface and why is that) and a few more questions that really makes gravity seem to behave like a force.
On another note, can we consider gravity as a "force" that pushed against spacetime fabric causing its curvature? 😊

wait, but both the surface of the ball and the surface of the earth are accelerating from the center, so they intersect not because the space between them disappeared, but because the surface inflated and took that space inside

Wish I read the book, I've been looking for that quote and concept in physics forever.

Trust your eyes and not BS theoretic physics.

@@stirlingmoss4621 according to your eyes Sun goes around the Earth

No, in truth the Sun is afraid of the dark and only comes out during the day. And the Sun runs across the sky looking for a place to hide from the dark of night.​@@skibaa1