General Relativity: Top 05 Mishaps [inc INTERSTELLAR]

Dad?

Sure they do: space, itself! Gravity waves. That's what they are - for all intents and purposes - sound waves *of* space itself. You just need a way to convert to/from air-sound and space-sound.

​@@RockBrentwood Nah, the only thing they have in common is that they are waves. It is like saying that sound and light are the samething because - for all intents and purpose - light is an sound waves of electromagnetic field itself. You just need a way to converto to/from air-sound and EMF-sound. Oh, wait, that is called radio.
By the way, sound is a horizontal wave, while gravity is a transversal wave, like light. That means that they are more alike. For example, gravitational waves can be polarized, unlike sound waves.
EDIT: as @alysdexia correctly pointed out, the correct term is longitudinal wave, not horizonal. But that is why I said they can't be polarized, because they are longitudinal.

"You are technically correct - the best kind of correct".

@@Alkis05 It is like saying that light waves are sound waves of the electromagnetic field, itself - as indeed they are, for all intents and purposes. You just need a way to convert to/from EM waves and air vibrations to hear them. Oh wait. That's called a radio. The "only thing they have in common" is *precisely* what they need to have in common! QED.

Now try doing it while high.

So if my calculations are correct you are happily travelling at 0.82 times the speed of light ! Congrats.

interesting.. I did the same thing but at 2x speed, though I often change it a bit if I am having a hard time understanding

I'll try this

@@atticusdodd6814 I find it difficult to understand at norm speed. My brain totally adapted to 2x speed.
Why are we even talking about this, this is more of a psychological and biological rather than physics.

Well 0! is 1 so... Makes sense.

@@riturajphukan632 ÷LLP

Interesting way to make use of a zero. What's that called... Outside the box thinking in my book.

😂😂😂😁😁😁

Must be a programmer.

"So just hanging?"

upwards? relative to what¿

@@DearHRS , check out this video, where this is explained perfectly and relatively simply ua-cam.com/video/XRr1kaXKBsU/v-deo.html

@@tomkocian6710 woosh

@@DearHRS We would have to assume he meant in the direction of the surface normal to level ground of the point on earth to which he is standing. He definitely should have clarified.

Welcome to the maths verse. May I recommend him calculating pi by hand?

Same! One of my new favourite channels now.

Hey, I discovered Daft Punk through a teacher showing me Daft Hands in middle school! However you end up on great content is always valid, no matter how silly it might be.

Might I recommend his books Things to make and do in the 4th dimension and Humble Pi.. if you enjoy the videos, you'll probably like them

Bruh

Nice mnemonic! Thank you!!!

this actually helps a ton when i try to remember which one im talking about, thanks!

@Ulti Now tell me, from your mnemonic, where acceleration fits.

@@puppetsock why should it?

@@billysgeo Why should acceleration fit into physics? Well, Bill. Perhaps you'd like to be able to do something besides linear motion at a constant velocity. Also, it is a frequent error to claim it belongs only in GR because people associate gravity with acceleration. So you often get people claiming that SR cannot understand the twin paradox because it involves the travelling twin accelerating to come home.
That's why we need to place acceleration in this scheme.

Genius

(Not sure if this is a legitimate error or a joke, but in any case...) Actually this is not the case, because people standing on the surface of the earth are not in free fall - they are not "in orbit". If you actually orbit at 0 meters from the surface of the earth, you will have to be going quite fast, which results in some special relativistic slowdown relative to earth observers.

@@digama0 I meant that as a joke. And I do not follow your comment (perhaps because I am not trained in physics beyond high school). Thanks though.

We can correct this with a cheeky bit of linguistics and say instead that you “place” your satellite at 0 m.

@@digama0 you are in orbit around the earth, though, even when you're standing still. You're in an orbit with an apoapsis of 0m (your current altitude), and with a periapsis close to the center of the earth. It just so happens though that that orbit intersects with the Earth's crust, which gives us an upward thrust to maintain our apoapse at 0m.

That is a hilarious and terrifying concept....i need to lye down now....

The Parker Array

@@swaree beat me to it

I'm surprised and disappointed that he 2 and 3 instead of i and -i.

0, -0, 0i, -0i, 0+0i,…

awesome :)

nice

@Ron Maimon why do you say that?

@Ron Maimon I don't see what relevance the Virial Theorem has here at all? I mean, the Virial Theorem pertains to a stable, self-gravitating, spherical distribution of equal mass objects, which is not what we are talking about.

The virial theorem compares to an infinitely far reference point not to one on the surface so Matt is (most probably) correct

Love.. Is the constant of life

Underrated comment

Kip Thorne is a saint

@@anshik.k.t 13th

Yeah, as so many fantasy epics, it's all ruined in the final act. Tip to authors: don't write yourself into an unescapeable corner, that way you don't have to create a nonsense explanation how the heroes escaped.

Now the simple question: Why?
Was/Is this effect important for creating the shape of the earth?

@@patricktho6546 naive explanation (i didn't run the numbers) would be that the surface of the earth at a given height above sea level follows a well defined potential line (or rather surface) where the centrifugal forces and gravity cancel out, i.e. the forces due to velocity and gravity.
We can assume that their time dilation therefore also cancels out since they are inherently linked and at the same potential for force and thus also time dilation.
I hope you understand what I meant.
The interesting thing now would be to see if this is true for any given angular velocity which would also require to know how much the earth or any given body would deform with their spin.
Which is non-trivial, maybe I run the numbers at some point just for fun.

@@metalhat3534 naively this sounds good.
But that would say, that this is true for every "solid, jet deformable", rotating object in a complete Vakuum.

@@metalhat3534 this explanation is good enough for me. The only thing I could add is that the sea-level detail basically just implies that water is free to move to wherever that velocity-gravity equilibrium lies all over the earth, moon tides notwithstanding.

@@metalhat3534 The idea of looking at places where the forces cancel out probably does not work since the forces are only opposite to another on the equator (For example at the poles there is no centrifugal component at all to cancel the gravity and your surface would stretch to infinity there).
The argument has to rather come from the ides that all the particles on the surface have the same energy level.
This quote from Wikipedia might help:
"Gravitational time dilation in a gravitational well is equal to the velocity time dilation for a speed that is needed to escape that gravitational well [...] Applying this argument more generally one gets that (under the same assumptions on the metric) the relative gravitational time dilation between two points equals to the time dilation due to velocity needed to climb from the lower point to the higher."
Since all the points in the surface have the same energy level any velocity > 0 would allow you to move from one point to another and thus there can be no difference in time dilation.
I am not an expert on the matter though, so take this with a grain of salt.

"If I was coming towards you at, say, half the speed of light..."

Seems like he did read the book, as the video deals with just what Thorne wrote about.

Sixty symbols

@UnderTheRain It will be if you doze off and not pay attention.

@dee dee "all people" is clearly an exaggeration. I bet it's not that confusing for the people involved in the making of the movie.

@@sebastianjost as someone trying to market a movie, though, would you really want to cater to that tiny proportion of humanity?

Bahahahahahaha
.
Thats the problem with many idiots who think of themselves as bigger than all.

Are you serious?

@@WhiteChocolate74 Pretty much every comment that starts with "fun fact" is a joke or wrong.

@@timseguine2 you never know with these Hollywood types

All right, all right allll riiiiight!

*No Time for Caution by Hans Zimmer sounds in the background* #epic

Damn, I wanted to write this comment

I can't figure out why Kip would say it's impossible. I've done the calculations myself and it works for a non-rotating black hole. But even if you think about it naively, it must be possible because the amount of time dilation approaches infinity as you near the event horizon. The only impossible thing is finding a perfectly stable orbit with that amount of dilation. But a moderately unstable orbit would do. The problem with the film is that the planet would have to be located within the Roche limit to have that dilation (spinning or no), and so it would be ripped apart immediately.

Dan Reynolds In other words, it’s impossible

@@danreyn SO ITS IMPOSSIBLE?

Very nice. You use GR on a daily basis?

Nice buddy 👍

Math QUESTION
Factor higher degree polynomial
ua-cam.com/video/D99PASilPrY/v-deo.html
See it one time..

@@mauijttewaal As to whether I actually use GR: Ah, no. In fact, while I have a physics background, my day job isn't in physics. The overall theme of my physics website (classical mechanics) is 'physics of rotation'. So I was primed towards being alert about the Earth's equatorial bulge. I don't remember where I learned about the concept ot the Geoid as an isochrone. Most likely Kevin Brown's website, but I have no recollection of that.

I am glad you talked about gravitational anomalies, because that was my first question when Matt said this.

Technically, known physics breaks down beyond the event horizon, so it's possible they discovered models that allow for some kind of existence within black holes.

@@cpasr8065 The journey there might be a bit rough though 😅

Stephen Hawking said an astronaut wouldn't notice passing through the event horizon.

@@neilgerace355 Hawking radiation tells us that there must be a "firewall" just beyond the event horizon that will burn you to a crisp before you were pulled apart ("spaghettification") by gravity.

Really, there's just a lot we don't know about black holes.

right?! tell me if you found it!

The bigger problem with interstellar was the energy delta required for all these maneuvers. Who cares if an hour on the surface is 7 years, when it takes months to get there with those puny rockets. And where did you get all the rocket fuel from?

it's on page 27 of the paper they wrote: arxiv.org/pdf/1502.03808.pdf

I'm kind of sad that they didn't write it into the script. Like, they get there, and everyone is assuming that they're going to go toward the bright blue place, and the pilot says that that's a common mistake and they have to go toward the dark red place. It's like being on the highway: you want to see dim red lights ahead of you; if you see bright blueish ones, that's oncoming traffic. It would be bad filmography if it was just a visual and you don't go to the attractive place, but good filmography if the attractive place is a trap for the unwary. (I have a vague memory that they had this idea, but it was too late to implement by the time they saw the rendering.)

Adele Lopez awesome! Thanks

I don't think einstein made a mistake there. It was just inference and observations

You missed the bit where Matt made that same mistake again during this very video

We don't know what Matt will come up with in another decade...

@@smeatar He also made the mistake of calculating at sea level. The last point assumes sea level is perfect and that again the earth doesn't bulge. What if you are a mile high as many cities are. need more maths

@Anessen Does calling someone an idiot make you feel a better person?

Yeah that was really well done. Like "This is is perfectly ordinary, people do it every day."

Was looking for this comment, gg

Thanks for the likes :)

T-shirt with a Venn diagram - big circle general relativity and a small circle special relativity - I want one

"Spoiler alert: one of them is mine" -Matt Parker himself

Closely related to the Parker Square

But they could claim that an expert approved.

that’s showbiz baby

"nearly impossible" is the key. That means that it is actually possible, however unlikely.

Yes!

Kip Thorne and Jonathan Nolan wrote the original script together.

@@Hhhgdvbjkydxvdfgf Thorne came with the idea for a movie that deals General Relativity, Black Holes a Wormholes in the plot. Jonathan Nolan was assigned to write the script with the guidance of Kip Thorne with Steven Spielberg as the director. The project got cold and Jonathan Nolan just finished the first draft. Years later Jonathan Nolan offered Chris to be involved in the project. When Christopher Nolan received green light from the studios he rewrote the script and added and designed much of the concepts that deals with higher dimension objects (the tesseract), bootstrap paradoxes and I think the subplot that draws parallels with Heart of Darkness by Joseph Conrad.

@@foglias Yes C Nolan basically ruined the end of the film with that silly last act, which was the part he rewrote because J Nolan's end to the film was deemed to dark for Hollywood.

Raging S That's not at all how it happened. It's explained in the video. They left out some elements like the Doppler effect that would've messed things up visually, but largely the black hole looks how the equations said it should.

It's all down to the geodesics being the longest path, rather than the shortest path lines we are used to in Euclidean geometry.

Your exactly right that is where General Relativity gets it wrong, The GR mishap. That's what Einstien gets for forgetting Newtons' First Law.

Timothy Aaron Newton's First Law has nothing to do with this, and it is not contradicted by GR, but rather a consequence of GR.

Michael Dam Olsen Geodesics are the shortest path, not the longest.

@@angelmendez-rivera351 I'm sorry I meant Newton's 3rd law.

Another consequence of frame dragging is that the orbit where time dilation cancels out relative to the surface of the earth is probably dependant on the orbital inclination, but since the kerr metric is a pain I don't know how big the impact is. (a back of the envelope calculation gives a factor of ~10^7 for the angular momentum correction relative to the orbital radius, so the difference should be around that order of magnitude at most, i.e. a few metres)

Interstellar did 2 papers about Black Holes. I think they knew, what they are foing :)

@@patricktho6546 foing, doing, fewing!
more pew, pew -- less foo, foo!

Math QUESTION
Factor higher degree polynomial
ua-cam.com/video/D99PASilPrY/v-deo.html
See it one time..

Wouldn't frame dragging, i.e. staying put within a moving spacetime rather than moving through spacetime, exclude any relativistic effects? Like a warp drive? Or is that not how frame dragging does its stuff?

Not to be "that guy" but a standard basketball is already pumped up to almost twice atmospheric pressure, so all you'd have to do to deal with a vacuum would be to let some air out first.

So you're into "string theory" 🎸

Isn't it haphazardly? Or can you say half-hazard too?

Hey, man. I got an EE degree, and I regret not minoring in music.

TBH even in physics you only get into General Relativity in graduate school, and even then only if it's relevant to your research. I'm getting my PhD in physics and I probably won't get to take a class on General Relativity (although you get lots of special relativity even in undergrad).

If you think about it, maths (eg the Bach family) & physics (obv for stringed instruments but for other instrument designs too) have a /lot/ of influence on music & instrument creators, even if they didn't realise it while working: don't put yourself down so much :)

This seems like a pretty big coincidence. Is there some physics reason it has to be true?
Matt also specified that it applies at sea level, but presumably wouldn’t apply if the earth had slightly more or less water, or if the distribution was different such that it was the same quantity, but higher or lower.
I wonder how perfect is the perfect cancellation.

@@rbnhd Yes, it's not a coincidence. The 'surface' of the spinning Earth is defined as the surface where the centrifugal force + gravity is constant, which is called the geoid. This is the shape the Earth will naturally take, since it is really nothing but a rocky fluid that wants to reach hydrostatic equilibrium.

The thing I like about raytracing is that not only are you bouncing the rays from the point of view, but they have to also all end at the point of origin (the light source)

Here's a mnemonic that will help you remember the difference between mnemonic and pneumonic: mnemonic starts with an M (for "memorizing"), pneumonic does not.
(I mean this as a joke - I just had to use the opportunity)
EDIT: Before this comment was edited it said "pneumonic" instead of "mnemonic" - that's why I made this reply

When I was first learning it, my mnemonic was that (S)pecial deals with (S)peed, and (G)eneral deals with (G)ravity.

@@linearj2951 That's actually better!

Or the Parker mnemonic: Special Relativity is spelled with a V...

@@linearj2951 general, deals with acceleration.

Special relativity did not originally come with Minkowski spacetime, though; it was only subsequent papers that showed how they were connected. By contrast, you couldn't describe general relativity without (Riemannian) spacetime.

"What shape is the earth?"
"Earth shaped"

@@seabassthegamer6644 And it's not shaped like the GPS reference geoid, that's a different geoid than the real geoid.

@@hammerth1421 Thanks for bringing that up. The geoids used in navigation (like the WGS-84 geoid) are very definitely different from the literal shape of the Earth. I believe the WGS-84 geoid is defined by gravity, not by the actual rocks and such directly. So, it is definitely Earth-like in shape, but intentionally different from the actual Earth shape in the details.

@@doctorbobstone don't forget that the "shape" of the gravitational geoid is not the same shape as the physical geoid due to density effects causing gravitational anomalies (the presence of which is used to help prospect for oil, etc.)

Chris Sloan What you are talking about is a non-topographic geoid, or smooth geoid. A smooth physical geoid is different from a smooth gravitational geoid, which is also different from the literal shape of the Earth, which includes its topography, and which is ot even really a shape, since it is constantly evolving chaotically.

That's just how regular ray tracing is done, you project from the screen to the surfaces and calculate the reflections based on that (to some arbitrary limit of number of reflections) and how much each surface contributes to the pixel color. You don't start from the light sources because it would be very slow.

Just don't let him go home until he spits out all the equations.

Good thing we now have algebra softwares, they help a lot for making complex derivations without mistakes in a short time. Of course you still have to know what you're doing and understand the results.

Same here ^^

Hahaha me too. An older guy with a beard :))

In Russia name Eugene is unisex.

4.

@@honorarymancunian7433 So his hands were moving at sqrt(15)/4*c (0.96824% of the speed of light)!? I'm surprised he still has skin.

@@honorarymancunian7433 I highly doubt it

let's say his hands move at approximately 1m/s relative to his head, then the time dilation is sqrt(1-(1/299792458^2)) = 0.999999999999999994436. If he talked constantly from the Big Bang to now, he would be 13.8 billion years old and his hands would be 0.999999999999999994436 of 13.8 billion years old, so 2.42 seconds younger than him.

@@aman-qj5sx I find your lack of faith disturbing.

Wait... You mean like if we would plot the integer number line on that computer it would be ...-2,-1,-0,0,1,2...?

If you want a binary representation of integers, there are two ways, one's complement and two's complement. One's complement has the interesting property that it allows for zero with the sign bit set, thus negative zero is a valid number (it is actually represented by all 1s). Two's complement doesn't have any similar option. It just ends up with one more negative number than positive. Almost all machines use 2's complement now. It need not be so, and in the early days of computing wasn't.

@@Morrvard No.

@@francisvaughan7460, And 9's complement is the decimal equivalent used in old calculators en.wikipedia.org/wiki/Pascal%27s_calculator#9's_complement

Modern computers also have -0 as a "real number" (actually, floating point number)

Math QUESTION
Factor higher degree polynomial
ua-cam.com/video/D99PASilPrY/v-deo.html
See it one time...

@@mr.knight8967 STOP SPAMMING

IMAGINARY ZERO IS ALSO REAL 0 I GUESS WE NEED CUBE RUTE OF ONE IN IMAGINARY PLANES

that's fab - well done Zheeraffa

This is so relatable it's not even funny.

Just because a scientific theory or set of ideas requires hard work on the part of the student does not mean the theory is a mess. Some GR courses spend the whole semester proving one equation, namely the Gravitation Field Equation and those students who fail to see the journey and only consider the destination have missed the point of the course.

@@stevehodson2613 I think you misunderstood me. By mess, I mean hard, not that it doesn't make sense. Apologies for the wording. But yeah, GR is something that is really hard and deriving it such that you can have an intuition on "what is actually happening" is even harder, which I call a mess. It all makes sense mathematically, but just as QM or QED, sometimes it's just mathematically perfect but a mess intuitively.
Again apologies for the wording.
Thanks!

@@mgmanzanillo thanks for clarifying but I have to disagree. My issue here is on a channel about educating the public in science to call a theory a mess is not only not accurate but pedagogically false. You and others may feel that the concepts of GR are weird, would you say that these concepts are messy? I wouldn't. In fact I would say that I need a more open mind to accept notions of the natural world that do not fit my immediate experience. Based on my subjective experience of GR would it be legitimate of me to conclude that GR is a mess based on my inability to have that open mind? I don't think it would be a rational response to seeing or experiencing something new for the first time to describe it as messy. Describing GR as messy does not say anything about GR itself but, and this is my criticism when it is used in the video, it does no justice to the theory and cements its reputation as being impenetrable.

@@stevehodson2613 Three points.
1. I did not say weird, I said it is hard to get an accurate intuition of how it really works. Those are very different, weird is something that does not make sense, and 'hard to have an accurate intuition' means it's hard to have an intuition (I can't simplify if further lol). Speaking of intuition, going on...
2. It's not really about having an open mind. Having an open mind helps but at the end of the day, it's skill that carries you forward. Your skill to understand equations allows you to have a more accurate understanding of what is happening because you can put a ball on a cloth all you want and say 'the cloth is like spacetime...' does not make you understand really what's going on.
3. Yes, you are allowed to call something messy based on your opinion. Of course that only goes a far as your opinion matters. As for me, it is messy, it is difficult (and I took a semester of classes for it) . And for the vast majority people, it is difficult and messy. Like even the people my fellow students who did not take that class, if I were to show them the derivations, they would say it is messy and difficult. Of course, if you did a PhD on the subject, the basic derivations you are doing at class will be child's play, but at the advanced GR problems they are tackling, I bet they would still consider it difficult. And that's why I don't consider Matt saying that "it's a mess" means that GR is impenetrable. It just means it's really difficult. Furthermore, for people me, it is just challenge waiting to be accepted. People who would not care, would not care, but people who do, would just think it funny because it is a challenge, a challenge to understand it. Unfortunately, even after taking a semester on it, I did not have the skill to have a intuition for it, I got the math/s right, but not how it really works. And that's fine...
Pardon for rambling.
Thanks!

Math QUESTION
Factor higher degree polynomial
ua-cam.com/video/D99PASilPrY/v-deo.html
See it one time...

Thank you.

Van allen belt?

Also, you want the GPS satellites to be geostationary, which requires specific orbits.

@@xxFxDx GPS Satellites don't orbit at geostationary, though that isn't an unreasonable guess. They have semi-synchronous (12 hour) orbits and they're in 6 orbital planes of 55° inclination, with at least 4 satellites in each orbit. This makes sure that every place on earth can see 6 satellites at once for accurate location. There are currently 31 operational satellites with 7 more available to use as spares, which gives the current system extremely high accuracy (30 cm/1 ft resolution)

@@Wyvernnnn The Van Allen Belt is basically where the solar wind gets trapped by earth's magnetic field. Solar wind is a lot of charged particles and a radiation hazard. It's not a problem if you only briefly fly through it (Apollo astronauts, satellites going up to higher orbits, interplanetary probes, etc) but if you keep something in that orbit it's not gonna like it.

Because at high energies a one-particle theory doesn't make sense anymore...

As a physicist and a movie nerd, Nolan is the best, my favourite director of all time

Where's TeneT?

He does specify gravitational general relativity

I thought that also!

Context

Yeah, the ship launches with a two-stage rocket and takes 6 months to reach the wormhole, but once it's through...
Suddenly it was Doctor-Who-style sci-fi, where the rules bend to what the drama wants.

@@NicD doctor who sci-fi is very fun and fantastical, and it goes more indepth in the expanded media as to how the mechanics of that universe function. and it is all completely rubbish scientifically, but fun nonetheless.

The tidal effects around a supermassive black hole are actually pretty small as being outside the event horizon puts you quite a distance from its center (no matter how close you get without falling in, you're still in pretty much a homogeneous gravitational field). It would be a problem around smaller black holes (on the order of 10s of solar masses), where you can get close enough so that the inverse square law makes a large difference over the distance of the ship/passengers' size

Almost 100 years later and the overwhelming majority of humanity still not ready.

Math QUESTION
Factor higher degree polynomial
ua-cam.com/video/D99PASilPrY/v-deo.html
See it one time. .

Lets not go with the "ten percent of the brain myth" please, its nonsense.
en.wikipedia.org/wiki/Ten_percent_of_the_brain_myth

Ain't no such thing as unnecessary details. Ask Bletchley Park or Apple.😉

@@Biosynchro oh there is. But all of them are necessary :)

It's what Pink Floyd's next album is going to be named

The supermassive black hole at the centre of NGC 1365 is reportedly spinning at least 85% of the speed of light. So yeh.

Nope, he uses pulp sci-fi cameras and microphones. You know, the ones that can hear lasers?

@@MonkeyJedi99 Which means he has enough air in his lungs to say everything in the video _and_ is doing all this quickly enough to not explode while the camera's still running. *Hmmm...* 🕵️‍♂️

Math QUESTION
Factor higher degree polynomial
ua-cam.com/video/D99PASilPrY/v-deo.html
See it one time..

Strike that. A SUPER episode. Subscribed!!!

That's first a geometrical nerd joke, and only second a geographical nerd joke.

Great circles are the generalization of the line in noneuclidian geometry, the use of the term in geography comes from the fact the geography deals with spherical geometry.

I thought I was the only one who noticed the logos...

I had the same thought. Daughter of francophile descendants of German immigrants, perhaps.

Upon further review, maybe you can use special relativity for accelerating frames, it's just a fair bit more complicated than what was mentioned at the start of the video.

@@insert_a_good_name_here4585 Yeah but no I still think it is a mistake. It is the centripetal acceleration that actually slows time. So that's general relativity.

Well in fact apparently, special relativity can deal with acceleration. math.ucr.edu/home/baez/physics/Relativity/SR/acceleration.html

that's what i was thinking. GR refers to an accelerating frame of reference and if you are orbiting a black hole then that would involve centripetal acceleration.

Nope, SR deals with acceleration perfectly fine.