What Teachers Get Wrong About Equivalence

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  • Опубликовано: 16 дек 2024

Комментарии • 901

  • @ScienceAsylum
    @ScienceAsylum  Год назад +18

    Get Nebula for 40% off with my link: go.nebula.tv/scienceasylum
    Then check out these recommendations: nebula.tv/videos/lindsayellis-how-they-adapted-lord-of-the-rings?ref=scienceasylum
    nebula.tv/videos/realscience-bipedalism?ref=scienceasylum
    nebula.tv/what-is-code?ref=scienceasylum

    • @IronAttorney1
      @IronAttorney1 Год назад +3

      Great video as always! But I'm concerned for that squirrel... How long had the rocket been accelerating before it collected the squirrel? Maybe the squirrel hit that floor at tens of thousands of kilometers per second!

    • @meesaragandaharinathraju208
      @meesaragandaharinathraju208 Год назад +2

      Very good presentation sir but in the rocket model the light bending can be experienced by the observer in the rocket but not for the third observer which outside in space, when comes to the gravity light bending can be experienced by third observer

    • @borgholable
      @borgholable Год назад +2

      fast fast

    • @educatedguest1510
      @educatedguest1510 Год назад

      Acceleration case - is it linear or circular acceleration? Circular acceleration is detectable through deflection of vertical beam of light. Linear acceleration goes eventually to speed close to c-speed, that is detectable too.

    • @pwinsider007
      @pwinsider007 Год назад +1

      Squirrels falling to ground with the distance not changing between them doesn't prove that equivalence principle is not universal law because uniform gravity means gravity has same magnitude and direction at every point in space because acceleration is vector quantity therefore equivalence principle is universal law.

  • @xyzabc4574
    @xyzabc4574 Год назад +60

    Today, I said "Fast, Fast!" at exactly the same time and cadence as you did. I'm gonna count this as a win.

    • @ScienceAsylum
      @ScienceAsylum  Год назад +22

      I also count this as a win.

    • @mahirbalayev5835
      @mahirbalayev5835 Год назад +3

      ​@@ScienceAsylum hi, want to see video about thermodynamics of Alqubierre drive 😊 if possible of course

  • @person1082
    @person1082 Год назад +6

    4:14 in rindler coordinates (uniformly accelerating reference frame, what a rocket would experience), proper acceleration is inversely proportional to distance from the rindler horizon rather than constant (although the weight as a function of height would be different with that and gravity)

  • @classifiedveteran9879
    @classifiedveteran9879 Год назад +3

    So at 3:01 this only works if you just started accelerating. If you have been accelerating for a hour you'd be hitting a squirrel _(not the squirrel hitting you, remember you're the moving object)_ at approximately mach 102.857 or twice the speed of Voyager 1 probe. 🤯
    The only way I could find out that I'm in a rocket I think is time. I just ran the numbers and you be aproaching lightspeed after 354 days of accelerating at 9.8 meters every second. _(Although this would probably feel much longer to me since I'd be undergoing the effects of time dialation.)_ But eventually the rocket couldn't accelerate more since the energy requirements would be infinity at that point. Then you'd become weightless.
    I'm not sure how long it would take from the perspective of the passenger inside the rocket. But I'd have to guess it'd be a *long* time...

    • @narfwhals7843
      @narfwhals7843 Год назад +4

      The rocket can accelerate indefinitely with the same force(assuming infinite fuel).
      Only to outside observers does it appear to have diminishing returns as they observe time in the rocket slow down.
      So they would not see the rocket approach the speed of light in a year, rather they would see its acceleration slowly dwindle.
      In more technical terms constant "proper" acceleration does not lead to constant "relative" acceleration.

    • @classifiedveteran9879
      @classifiedveteran9879 Год назад +2

      @@narfwhals7843 🥴 I think insane asylum needs to explain this.

  • @silentt8161
    @silentt8161 Год назад +2

    i'm so used to your videos that when this one has no music i cant stop "looking" at it. kind of makes me realize how good the use of music is your videos

  • @Mysoi123
    @Mysoi123 Год назад +15

    Great video as always, Nick!
    I have consistently employed the equivalence principle to elucidate phenomena in classical physics that may not intuitively make sense, such as the less dense air above and the occasional perception of weightlessness in certain objects. However, when explaining this concept to individuals unfamiliar with the equivalence principle, comprehension is often elusive. Nevertheless, it provides a personal sense of satisfaction.
    In positive news, recent experiments substantiate that antimatter falls down just like ordinary matter. This finding serves as compelling evidence that the equivalence principle remains valid even in the realm of matter-antimatter interactions, thereby demonstrating that all objects follow the same geodesics in curved spacetime.
    General relativity for the win!

  • @cortster12
    @cortster12 Год назад +43

    Gravity being acceleration through time suddenly makes sense now. This is where the 'missing time' comes from when objects age slower in a gravitational field. They age slower in time, but move faster in space by an equivalent acceleration to compensate. It's conservation of energy in action.

    • @havardsommerfeldt2437
      @havardsommerfeldt2437 Год назад +1

      hmm, but dont objects close to event horizons appear to stop moving alltogether? Or is that just time stopping?

    • @AverageAlien
      @AverageAlien Год назад +6

      ​@havardsommerfeldt2437 They appear to stop moving from a distant outside perspective because they are travelling at a different angle through the dimension of time. From their perspective, they are still moving through time at a normal rate and it is you that has stopped moving.

    • @havardsommerfeldt2437
      @havardsommerfeldt2437 Год назад

      @@AverageAlien im getting dizzy

    • @AverageAlien
      @AverageAlien Год назад +6

      @@havardsommerfeldt2437 Think of it like driving alongside someone else. You are both travelling at the same speed. Then, the driver beside you veers off away from you. They appear to fall behind you. But they have not changed their speed, only their direction of travel.
      The same thing happens around massive objects. Spacetime is bent by the massive object. A black hole bends space and time so much that they swap places. As the person falls into the black hole, they're travelling at a different angle through time than you are. So they appear to move more slowly through time. From their perspective however, nothing is different. It is you that appears to be travelling more slowly through time.

    • @claudiaarjangi4914
      @claudiaarjangi4914 Год назад

      ​​@@havardsommerfeldt2437Things/ objects appearing to stop moving as they hit the event horizon is a purely us seeing it,, visual effect, not actual time slowing/ stopping for it.. The object would "feel" as if time is "normal" & is moving as normal, but the light coming off it ( that allows us to see it ) is being ”pulled” or falling back down at the speed of light due to the mondo gravity ( very simplified ), so the object appears to have stopped still..
      Though in reality the object would just appear static & start to "redden" as it fades out of the visual spectrum due to "red shift" ( very simplified, again ) ..
      😁☮️🌏

  • @IloveRumania
    @IloveRumania Год назад +3

    0:16 "Hey, Vsauce! Michael here!"

  • @batlrar
    @batlrar Год назад +9

    I really like all the minutiae you go into in this video, which probably covers a lot of questions or qualms people had with the previous one! Another part I usually don't see addressed is that the rocket would have to be pressurized to 1 atmosphere for it to feel like Earth (at sea level, at least), although I guess that part's usually just assumed. I've always found the part about light bending interesting as well, because light is considered massless, so it shouldn't technically be affected by gravity! The reasoning behind it is that gravity warps the space-time around the massive object, so it's not that the light is getting bent, but rather that the light is traveling in a straight line on a curved path, if that makes more sense.

    • @AfricanLionBat
      @AfricanLionBat Год назад +1

      That's exactly what happens to light when it bends towards Earth it's heading in a straight line but space is bent so the line isn't exactly straight from our perspective.

    • @Miguel_Noether
      @Miguel_Noether Год назад

      wrong, the massive object warps the space-time, gravity is the warping itself

    • @EdKolis
      @EdKolis Год назад +2

      I once saw a video that explained a lot of things about black holes by saying that gravity actually bends time so that "the future" points "down". That totally blew my mind but it makes perfect sense! You can't escape from a black hole not because it's sucking you in like a cosmic vacuum cleaner - rather, it bent all possible futures for you to point in its direction!

  • @favesongslist
    @favesongslist Год назад +9

    TY so much for this, I tried to present the same points online , admittedly not as eloquent as you just did, Without exception I was shot down and told I didn't understand the equiveillance principle.

    • @ScienceAsylum
      @ScienceAsylum  Год назад +2

      Hopefully now you can just share the video when you get into the next argument 👍

  • @shantanusapru
    @shantanusapru Год назад +3

    "Without air resistance..." 😱😱😱Physicist said the quiet part aloud!😱😱😱😱

  • @simi1911
    @simi1911 Год назад +4

    I noticed Nick's name among the winners in an old challenge from PBS Space Time.
    Nick is smart! Smart, smart!

    • @ScienceAsylum
      @ScienceAsylum  Год назад +3

      Ah yes, that brings back some memories. Those were the Gabe days.

    • @simi1911
      @simi1911 Год назад +3

      Talking FAST, FAST Days.

  • @kwezicanca3698
    @kwezicanca3698 11 месяцев назад +1

    Nick I really wish you already had a million subscribers. Man I love your channel, all the way from South Africa!!

    • @ScienceAsylum
      @ScienceAsylum  11 месяцев назад

      Thanks! I'm not sure my work is the kind that gets a million subs though. (which is fine by me)

  • @Emordiola
    @Emordiola Год назад +3

    Nick, I know you’re a physicist but can you make a video on math concepts, like calculus with real life examples, its history etc? Because you make people understand hard concepts easily and I want to understand advanced math, too!

  • @FriskMeemur
    @FriskMeemur 11 месяцев назад +1

    We can always count on science asylum to build a rocket and accellerate it to 9.8m/s squared just to troll a expendable clone

  • @LuneLovehearn
    @LuneLovehearn Год назад +9

    this also reminds me of when we used to talk about gravity, acceleration and perspective on the physics class on high-school. we used to have fun doing the math and experiments to prove and test the theory.

    • @TheBelrick
      @TheBelrick Год назад

      what is with the nigerian caricatures. have some darn pride

  • @maestro_100
    @maestro_100 Год назад +1

    * I opened the RUclips app,
    * One of my favourite channels had released a video about gravity.
    * I clicked the video before the thumbnail even loaded😂
    As expected, the video didn't disappoint.
    Thank You Very Much!

  • @Soupy_loopy
    @Soupy_loopy Год назад +3

    I don't think I have ever seen a squirrel fall on earth. They are particularly good at not falling. So if did see a squirrel falling from the sky, I would assume something is out of the ordinary.

  • @biblical-events
    @biblical-events Год назад +1

    Great to see you pop up within my algorithm Nick.... Brilliant video as usual 👍

    • @biblical-events
      @biblical-events Год назад

      I wonder if you're on "The tiktok" Nick?.... 🤔

    • @ScienceAsylum
      @ScienceAsylum  Год назад

      @@biblical-events I did TikTok for about a year (mid-2021 to mid-2022). I wasn't enjoying it though and it wasn't making any money either, so why continue?

  • @fungisrock8955
    @fungisrock8955 Год назад +3

    This is perfect, we're just now learning relativity in physics, thank you!

  • @Sultan_A
    @Sultan_A 6 месяцев назад +2

    Wow! Good Job, The Science Asylum, Keep It Up!

  • @TallinuTV
    @TallinuTV Год назад +3

    The thing is, standing on the surface of a planet, you're not feeling gravity... You're feeling the planet pushing up on you, constantly accelerating you away from the path your body wants to take -- a _straight line through spacetime._ But since spacetime curves, that straight path appears to bend toward the planet as you progress forward in time. If the ground suddenly disappears from underneath you -- perhaps a trap door opened, or you stepped out of an aircraft to go skydiving -- then you go into a weightless freefall, and experience that curved-looking straight line. Jump straight up, and you briefly divert that path away from the planet, "falling" upward, until the curvature brings you to a halt relative to the surface and then sends you back toward it.

    • @AverageAlien
      @AverageAlien Год назад

      Bingo. Someone finally gets it. The earth expands outwards at 9.81ms^-2. The reason we don't see planets growing larger is because they are expanding into a contracting space.

    • @elio7610
      @elio7610 Год назад

      ​@@AverageAlienThat does not make much sense to me and seems like an absurd conclusion. I understand how thinking of gravity as acceleration seems to match up but then there is the problem of how a planet accelerating outwards in all directions just goes against common understanding of things. "You don't notice it because [insert hypothetical here]" it just seems like an insufficient explanation. "Contracting space" may as well be fairies.

    • @AverageAlien
      @AverageAlien Год назад

      @@elio7610 No, that's the reality of what the model of relativity shows. Its not that difficult to understand. Earth has to grow outwards otherwise it would collapse in on itself. Not that hard to grasp. This is simply a basic fact. Gravity is quite literally the contraction of space into a massive objects. If earth didn't grow outwards, it would contract with the space into itself. The pressure exerted by the atoms that make the earth up resist this contraction.

    • @elio7610
      @elio7610 Год назад

      @@AverageAlien Does not seem so obvious to me. "otherwise earth would collapse in on itself" that is exactly what gravity is doing, though, everything is being crushed into a point, it just hasn't gone all the way into being a black hole.

    • @AverageAlien
      @AverageAlien Год назад

      @@elio7610 what's your point?

  • @RudivanderWalt
    @RudivanderWalt Год назад +1

    I only upvote on videos where you either say "fastfast" or "it's ok to be a little crazy" 😊 great video as always, thank you!

  • @mandelbraught2728
    @mandelbraught2728 Год назад +5

    As always, more great nuttiness from the asylum! Another excellent video, thanks! I have had one question about this for a while now and I honestly can't tell if you answered it, or not. The only way I can think to phrase it is: *IF* they worked out a theory of quantum gravity, would that theory also need to adhere to the equivalence principle? In other words, are they truly, deep-down equivalent? Like, wouldn't regular acceleration necessarily be different than the interactions of gravitons (if they existed)? Or is it just at the level of thought-experiment and description?

    • @ScienceAsylum
      @ScienceAsylum  Год назад +5

      Any model of quantum gravity would need to make every single prediction that general relativity does (plus at least one extra prediction to test it against general relativity).

    • @swinde
      @swinde Год назад +1

      I don't think that the "graviton" particle has ever been detected.

    • @patrickday4206
      @patrickday4206 Год назад

      My belief is there is something like strings that repel matter and the more matter the stronger the repulsion and an isolated object floating in space has minor force applied equally all around maybe dark matter

  • @donniewatson9120
    @donniewatson9120 Год назад +2

    Nick, I personally like to state a little phrase that is similar to being ok to be a little crazy. I don't suffer from insanity; I enjoy every minute of it.

  • @hacked2123
    @hacked2123 Год назад +4

    I always try to wrap my head around my hypothesis that gravity is an acceleration through time more so than space...but I haven't came up with a clear method to convey that yet.

    • @ScienceAsylum
      @ScienceAsylum  Год назад +2

      I have an older video about that: ruclips.net/video/F5PfjsPdBzg/видео.html It's my most viewed video.

    • @davestorm6718
      @davestorm6718 Год назад

      I disagree that "gravity is an acceleration through time", the reason being is that, if true, then everything would fall at the same rate, be it on the moon, on Earth or on Jupiter. This would also mean that matter warps time. It also implies Newton to be completely wrong (gravitational force is a 2-body problem) and energy is transferred towards the future, in perpetuity. Since Newton's formulas are the foundation of all relativity calculations, how could this be true? I don't see relativity being disproven any time soon.

    • @AverageAlien
      @AverageAlien Год назад

      Gravity is caused by time. Without time there is no gravity. A stationary apple above earth will not fall to earth if it isn't moving forward in time. Spacetime is bent into the earth by earths mass. The dimension of time means that spacetime will endlessly contract into the earth, dragging objects like an apple with it. Or rather, the earth will resist this contraction of spacetime, and will accelerate outwards at 9.81ms-^2, so that earth constantly expands into an ever contracting space.

    • @davestorm6718
      @davestorm6718 Год назад

      @@AverageAlien That is a circular argument, for starters (correlation vs causation). Time doesn't exist as anything tangible, it's merely a function for the rate of change in a mathematical expression. It is merely a description for motion of anything. The Newtonian notion that an object in motion will remain in motion unless acted on by a force. Any object that is moving at a constant velocity would, as per what you are saying, will be frozen in time, if not accelerating (and shouldn't be moving at all). I challenge this notion and the other one that claims a temporal gradient (also circular logic) for objects approaching a gravitational well. A temporal gradient, if such a thing exists, would not make stuff "stick" together, but only spin/orbit. This requires an external force of attraction (and requires the counter centripetal force that is equal to keep it in orbit). With a simple thruster attached, as energy is lost to the field, you can maintain orbit indefinitely. Or, from your explanation, stop time. Like all the models of gravity being a warp in a "fabric", they still require an additional force to fall in, so to speak. This means you don't need warped space or "space-time" to describe gravity nor motion in general, just forces. You can just as easily explain a force gradient as you can a time gradient and still explain relativistic effects without any time function at all since it's merely an integral of distance at human-defined intervals. The idea of the passage of time is arbitrarily defined so we can make predictions of the next location of an object and uses units (also arbitrarily defined). Regarding rest frames and objects within them, they don't actually slow down when the frame is moving at or near c, they are simply moving as fast as they can against the impedance of space - which means that even atomic motion will effectively slow down and stop. It's a differential, not time slowing down and stopping. Einstein was basically correct, but the interpretations of relativity, especially later, and what it means, is completely off. Time travel, wormholes, expansion, etc, are the problem since the invention of "space-time", which, in and of itself, is merely a coordinate system in the mathematical realm to describe the Universe. There is no "space-time" and the speed of light is only a limit for transverse electromagnetic waves and limited, not by time, but by a counter part to EM (an impedance). Now you don't need exotic descriptions of quantum entanglement or other apparent instantaneous effects (which, as per current explanations, require time reversal, and is a bit of a stretch). The tethering of time with light speed is the greatest mistake of the 20th century.

    • @AverageAlien
      @AverageAlien Год назад

      @@davestorm6718 There is no force of attraction. General relativity perfectly explains orbits and everything else. There is no such thing as a gravitational field. Doesn't exist. Time is a dimension, like the spatial dimensions. It is a real and tangible thing.
      There is no impedence through space for light either. Light travels at the speed it does because everything travels at that same constant speed. The only difference is massive objects share that speed through time and space. General relativity provides a much more complete explanation of reality than newtonian gravity.

  • @luudest
    @luudest Год назад +1

    6:03 Is the bending of light the same in the rocket and on earth? Does time dilation play a role here?
    Why I am asking: The measured bending of light in a gravitational field is twice as much as when calculating it with free fall. The difference is due to gravitational time dilation (something I have not understood yet).

    • @ScienceAsylum
      @ScienceAsylum  Год назад

      On a small scale like the inside of a rocket, the bending of the light would look the same.

  • @slo3337
    @slo3337 Год назад +3

    In an constant accelerating box the force you experience is constant from all points in the box. If you are in a gravity well, the forces are less above you and more below and on an exponential curve. And centripetal force would also be less above than below but would be linear. I always wonder why no one points this out. And I mean no one, I had to figure this out myself.

    • @narfwhals7843
      @narfwhals7843 Год назад +3

      This is pointed out in this very video. At around 4:37

    • @wizardsuth
      @wizardsuth Год назад

      You would notice differences between gravity and rotation if you were in a rotating cylindrical spaceship about 50' in diameter (like the one in _2001: A Space Odyssey_ ). For instance, when throwing a ball toward the centre you might be surprised by where it lands -- it would seem to accelerate oddly. You could even float in the centre if you could find a way to get there.
      On a rotating ring the size of those in the _Halo_ games these differences wouldn't be noticeable unless you had a spaceship.

    • @renedekker9806
      @renedekker9806 Год назад

      _"I always wonder why no one points this out"_ - maybe because it is only partly correct. Even in a constant accelerating box, the acceleration higher up in the box (and hence your weight) is less than the acceleration lower in the box. The gradient is different from a normal gravitational field, though. And indeed, the video is not fully correct about this.

    • @killerbee.13
      @killerbee.13 Год назад

      @@renedekker9806 Do you have some kind of mathematical justification for this idea or does it just seem correct to you? Because if the room is rigid, or at least in a steady state, the entire room accelerates at the same rate, and measuring from any part of the room is equivalent to measuring from any other part, i.e. acceleration would have no gradient within the room. And if the room is not rigid and not in a steady state, it wouldn't be the uniformly accelerating room as required for the equivalence principle.

  • @diegofernandez4789
    @diegofernandez4789 Год назад +2

    Crazy Nick has come back!
    BTW, is expendable clone still flying through space?

  • @theobolt250
    @theobolt250 Год назад +9

    So, there's a relation between gravity and time as well! The clock on top is just a teeny tiny fraction faster then the one on the bottom. Time dilation AND gravity dilation! Cool!

    • @MePeterNicholls
      @MePeterNicholls Год назад

      Is gravity = time… ?

    • @glubstubs
      @glubstubs Год назад +1

      ​@MePeterNicholls, the connection is there. It's subtle, intense, and I want to one day understand it.

    • @lorekeeper685
      @lorekeeper685 Год назад

      ​@@MePeterNichollsbending of Spacetime

    • @XEinstein
      @XEinstein Год назад +1

      There is sn excellent video here on this very channel that explains that the reason why you are pulled down by gravity is because in the gravitational field of a massive object, time ticks more slowly at your feet than at your head.
      So yeah, since gravity is nothing more then the bending of spaceTIME there is a very close relationship between time and gravity.
      Or if you follow Erik Verlinde's reasoning entropy is what creates time, entanglement creates entropy and spacetime emerges from entanglement and entropy.

    • @EdKolis
      @EdKolis Год назад

      I once saw a video about black holes that explains it by saying that gravity doesn't suck you in or even bend space - rather, it bends time itself so that the future points ever so slightly down! Or straight down if you're inside a black hole...

  • @yourguard4
    @yourguard4 Год назад +1

    In this episode , no clone wasn't harmed.

  • @GrayBlood1331
    @GrayBlood1331 Год назад

    I'm really psyched you brought up the example of how a really long ship wouldn't have the same gravitational expression as a planet. This is something been wondering about for awhile and how you could use it show if you were accelerating or in a gravitational field. I figured there would be some science-y mumbo jumbo to explain it away like how we can't measure the one-way speed of light (like if you were to synchronize the clocks but then move one there would be time dilation which would invalidate the experiment). There are also more pragmatic solutions like how no ship could keep accelerating forever because it would (probably pretty quickly) run out of fuel and gravity would "switch off" which would never happen to a planet. Good video!

  • @1dgram
    @1dgram Год назад +4

    I enjoyed chatting during the Patreon supporter stream on Saturday. Keep up the great work!

  • @gerryshacter4427
    @gerryshacter4427 Год назад +1

    You said the sun will bend the light's path. Would it be better to say that the light be will follow the curve of space caused by the sun's mass. When we say the sun did it , well it did, but that begs the question how. Not as confusing as continuing to talk about the sun 'coming up' in the morning? Your program is a gift. Helps clear out a lot of fog of subjects I'm so intrigued by.

  • @zotzot5
    @zotzot5 Год назад +6

    reminds me of project hail mary, where the main character uses his knowledge of physics and the flaws of the equivalence principle in the real world to determine why gravity feels weird in the room he wakes up in.

    • @playgroundchooser
      @playgroundchooser Год назад +1

      *YES!!* That was my first thought as well. I'm super stoked to see what Lord & Miller do with adapting the book to the big screen.

  • @vadymkvasha4556
    @vadymkvasha4556 Год назад +1

    long time no see, it's always a pleasure!

  • @punditgi
    @punditgi Год назад +10

    Another excellent and very lucid video. One note: please use km/h instead of kph.
    Looking forward to your next video! 🎉😊

    • @CoreyKearney
      @CoreyKearney Год назад +2

      It's a fair mistake form an American. Mph is what they use.

    • @JonBrase
      @JonBrase Год назад

      I mean technically, mph should probably be written mi/h, but mph is the traditional abbreviation. kph isn't really any worse.

    • @ScienceAsylum
      @ScienceAsylum  Год назад +7

      I've seen plenty of speedometers on cars (in the US) that say "kph" on them. It's a common abbreviation.

    • @eloniusz
      @eloniusz Год назад

      @@ScienceAsylum It may be common in America but I'm from Europe and I wouldn't guess what it means without context.

    • @EnigmaticLucas
      @EnigmaticLucas Год назад

      @@JonBraseTraditional units and metric units have different conventions for writing.
      For example, for metric you're supposed to put a space between the number and the unit and you're not supposed to put a period after the unit symbol (unless it's at the end of the sentence), but for traditional/customary/imperial both of those things are left up to you.

  • @ruhnke
    @ruhnke 10 месяцев назад +1

    Thank you for talking about Brazil. Every time I see people mentioning this experiment they never remember to bring up my country. 😊

    • @ScienceAsylum
      @ScienceAsylum  10 месяцев назад

      You're welcome! I try to be thorough.

  • @nothosaur
    @nothosaur Год назад +5

    Another great video! Well explained.

  • @nathancampbell8064
    @nathancampbell8064 Год назад +1

    Can you do a video on how laser rust removal works scientifically? I find it fascinating how light can interact with the physical environment without being in a sense a physical thing.

  • @erikziak1249
    @erikziak1249 Год назад +6

    I expected a mention about the Foucault pendulum. Since I am NOT on the equator, I can do a simple test to determine if I am on Earth (which is a non-inertial reference frame) or in a rocket. At least, if the rocket is no spinning along its axis. But then, I could do other experiments to check for that as well.

    • @JWQweqOPDH
      @JWQweqOPDH Год назад

      Wouldn't there be a rate at which the rocket could spin to simulate being on Earth? What test could tell the difference?

    • @DrDeuteron
      @DrDeuteron Год назад +3

      You’re just mixing gravity and acceleration, which confuses things. Of course, the coriolis and centrifugal forces can be considered gravitation, to. It’s just no Newtonian gravity.

    • @filonin2
      @filonin2 Год назад +2

      You could only establish you were not on Earth. You could still be on a tidally locked body of equal mass and diameter.

    • @erikziak1249
      @erikziak1249 Год назад

      @@filonin2 That is correct.

  • @mohammedal-haddad2652
    @mohammedal-haddad2652 Год назад +1

    I really missed this kind of videos from Science Asylum.

  • @astrokrystof8395
    @astrokrystof8395 Год назад +3

    Oh yeah general relativity

  • @levmatta
    @levmatta Год назад +1

    Thank you for mentioning the experiments. Chears from Brazil

  • @albirtarsha5370
    @albirtarsha5370 Год назад +3

    This is probably the best channel for young people to learn about modern physics.

  • @bryandraughn9830
    @bryandraughn9830 Год назад +1

    I would like to understand how space is curved because of a nearby object.
    Why does it curve?
    Why doesn't it just move out of the way?
    Does the object "pull" on the space surrounding it?
    What's really confusing is that nobody ever explains this.
    It's like everyone just says "Yeah, space curves because of the tensor" or whatever, but is there a mechanism?
    How does ANYTHING affect space?
    Space doesn't get hot or cold.
    It doesn't move. It just sits there and when there's an object nearby, it "curves".
    I seriously wish someone would clarify this thing.

    • @thedeemon
      @thedeemon Год назад

      Einstein's general relativity doesn't answer this at all, unfortunately. Only says "how much", "how strongly" but not "how the hell" it does. Some modern physicists hope to find the answer in properties of quantum entanglement and structure of quantum mechanics itself.

  • @EdyGavrila
    @EdyGavrila Год назад +3

    When I first understood this principle, it kind of blew my mind.

  • @parallaxe5394
    @parallaxe5394 Год назад +2

    Hello. I do not like this principle very much, not because I think it is wrong but because a lot of people misunderstand how limited it actually is. It is a neat comparison, a though experiment to make people think and nothing more. And yet people push the "equivalent" far further saying "it is the same" which it is not in many ways.
    Still, I think your video was very clear and to the point. I hope more people will now understand what Einstein was talking about. Thx. Nick.

    • @favesongslist
      @favesongslist Год назад

      Exactly what happened to me, I was shot down and told I didn't understand the equiveillance principle.

    • @YounesLayachi
      @YounesLayachi Год назад

      Ok tell us about those many ways

    • @101Mant
      @101Mant Год назад +1

      If there was a way it wasn't the same then surely you could test that?
      In the real world I'm not sure you ever get a uniform gravitational field so there may be real world differences between gravity and acceleration but that isn't what the principal is talking about

  • @KeithCooper-Albuquerque
    @KeithCooper-Albuquerque Год назад +2

    Thanks for another great video! Kudos to you for using people of color in your content!

    • @0-by-1_Publishing_LLC
      @0-by-1_Publishing_LLC Год назад

      *"Kudos to you for using people of color in your content!"*
      ... Although the "Brotherhood of Space Squirrels" (BOSS) is disappointed that one of their brethren was tossed out into space without a spacesuit.

  • @Kelticfury
    @Kelticfury Год назад +1

    I had a lightbulb moment when he said "Gravity is acceleration we just can't see". I think unravelling gravity/quantum gravity is going to be crazy difficult to work out, kind of like the actual mechanism of light "slowing down" in a transparent medium (glass or water for example). I wish I could thumbs-up this video multiple times :)

    • @KALLER76
      @KALLER76 Год назад

      Gravitaty is the acceleration caused by the bending of of spacetime and that some objects doesn't move in straight line through the spacetime. An stone on the surface of the earth move in a curve throw the spacetime and this causes the acceleration we call gravity. If the stone is in a free fall, it moves in a straight line and there is no acceleration and no gravity.

  • @jaredsmith112
    @jaredsmith112 Год назад +4

    Experiencing gravity on a planet requires no energy and can be indefinite, whereas constant acceleration demands increasing energy and is limited by the speed of light.

    • @seabeepirate
      @seabeepirate Год назад

      The spin of the planet affects the weight you experience and it is caused primarily by the Sun. There is a continuous stream of energy being absorbed and radiated by the planet.

    • @qazsedcft2162
      @qazsedcft2162 Год назад +4

      But it's not like you hit a limit and stop accelerating. Even if you get to 0.999 c you would still feel the same 1 g acceleration all the time while your rocket's speed is getting asymptotically closer to c but never reaching it.

    • @grevel1376
      @grevel1376 Год назад +2

      Experiencing the apparent weight due to acceleration of a rocket also doesn't require energy.

    • @444haluk
      @444haluk Год назад

      Clearly you didn't understand.

    • @jaredsmith112
      @jaredsmith112 Год назад

      @@qazsedcft2162 Interesting. Maybe I was wrong that the speed of light would prevent constant acceleration. But the amount of energy would grow exponentially, making it practically impossible to continue accelerating. Whereas a marble resting on a planet would feel gravity indefinitely as long as the planet remained intact and massive

  • @kerryhaycock9446
    @kerryhaycock9446 Год назад +2

    Brilliant , thanks Nick 🙂 is there not also a further breakdown of the literal equivalence in that it is duration limited ? After 8.5 hrs at this constant acceleration C would be approached and the experiment becomes physically impossible ? If you wait 8.5 hours it would prove you were on earth or equivalent ?

    • @Knirin
      @Knirin Год назад +1

      I suspect relativistic time dilation might get in the way. Good question though.

    • @christiankiss1736
      @christiankiss1736 Год назад

      I have exactly this question since childhood but no RUclipsr answered my question to date, thank you

    • @XtreeM_FaiL
      @XtreeM_FaiL Год назад

      C? If you mean c aka speed of light then you need about a year.

    • @christiankiss1736
      @christiankiss1736 Год назад

      @@XtreeM_FaiL true, but still - what happens when we approach c?

    • @XtreeM_FaiL
      @XtreeM_FaiL Год назад +1

      @@christiankiss1736 Then you need to ditch Newton's laws and start using Einstein's special relativity or was it the general relativity. Idk, maybe both.

  • @whatitmeans
    @whatitmeans Год назад

    Nice vid Nick, I missed the experiment with the watter bottle with holes that stop leacking during fall time, it make sense of the postulate to begin with.

  • @Jack_Redview
    @Jack_Redview Год назад +1

    Another great video Nick

  • @andrewrush399
    @andrewrush399 Год назад +1

    I often hear that not only is being in an accelerated frame indistinguishable from a uniform gravitational field, but they are the same thing. The thing I have trouble visualizing is how the surface of the earth could be accelerating. As a sphere, this could only happen if the earth were expanding at an accelerated rate, which, it doesn't seem to be. I think maybe the idea is that due to the curvature of spacetime, the surface is accelerating outward which is preventing the collapse of the earth into a singularity, but I have trouble visualizing that, and I'm not sure it's correct. I'd love to see a video examining this idea more thoroughly

    • @grandetaco4416
      @grandetaco4416 Год назад

      I think he pointed it out. When you go up in a building you get further from the earth and thus get lighter. This would mean we are not experiencing gravity due to acceleration. Instead you are experiencing gravity due to mass from the Earth. You get lighter because you aren't near as much mass.

    • @ScienceAsylum
      @ScienceAsylum  Год назад +1

      *"The thing I have trouble visualizing is how the surface of the earth could be accelerating."*
      I'm hoping to go into this more deeply in a future video.

  • @blcouch
    @blcouch Год назад

    A plumb bob will hang at a slightly different angle from one side of the room than the other if you are on a round body whereas in an accelerating rocket, there is no “down” for the plumb bob to point towards, so the plumb bob will point perpendicular to the floor at any point in the “room”. Same principle as when the circumference of the earth was calculated by measuring shadow angles.

  • @walkdead94
    @walkdead94 Год назад +2

    I live very close to Sobral, Brazil... amd there is a status for this experiment! Its a major stuff there! :D

  • @reversemyopia
    @reversemyopia Год назад +1

    It's not equivalence implying the inability to tell the difference.
    It is the inability to tell the difference is what makes things equivalent.

  • @johnspathonis1078
    @johnspathonis1078 Год назад +2

    Great videos!! What about time dialation in both situations?

    • @tristanwinkworth1562
      @tristanwinkworth1562 Год назад

      In both scenarios, you are within a room with no other point of reference. This means your frame of reference is always the room you are in, and you would not experience time dilation as there is no other frame to be relative to within the thought experiment.

    • @thedeemon
      @thedeemon Год назад

      If you're in a rocket that stands on the ground vertically, in gravitational field, then clocks at its tail are ticking slower than at the head, due to gravitational time dilation.
      If you're in a rocket in space, accelerating at 1g, then from special relativity perspective you keep changing your frame of reference (because your speed changes), and you need to apply Lorentz transformation to keep track of relative coordinates around, this leads to an effect where if you're at rocket's head, an earlier moment in the history of rocket's tail is now simultaneous to you, and as you keep accelerating this rotation in 4D of plane of simultaneity makes it so that earlier moments of tail's history become "now" to you, which means for you it looks like clocks at the tail are ticking slower than at the head. And you should observe the same time rate difference as in case of gravitational time dilation!
      If instead of constantly changing our frame of reference we want to describe astronaut's view as a single non-inertial frame of reference, we need to use the math of general relativity, and the result will look as if the rocket is inside a gravitational field.

    • @johnspathonis1078
      @johnspathonis1078 Год назад

      Thank you for such a detailed reply. For a satellite in geosynchronous orbit around the Earth. Is the time dilation experienced caused by the gravity differential alone or is the centrifugal acceleration contributing to this effect? After all, the satellite is constantly accelerating. @@thedeemon

    • @thedeemon
      @thedeemon Год назад

      @@johnspathonis1078 A satellite is in free fall, its proper acceleration is zero, and it experiences two kinds of time dilation: from Earth's gravity and from motion. Relative to us there's less gravity so satellite's clocks go faster. Relative to us it's moving, so there's some clocks slow down due to motion. Two effects oppose each other. In case of geosynchronous orbit gravitational time dilation wins, so overall clocks on such satellite tick faster than ours.

  • @foxhound1008
    @foxhound1008 Год назад +1

    Question to check my understanding: In your 20 mile rocket, accelerating upward at 9.8 M/S^2, if I was to shoot a pulse of light from the bottom of the rocket to the top of the rocket, wouldn't the light be redshifted? similar to what happens when light climbs up out of a gravitational field? Would an observer located at the top of the rocket agree with an observer at the bottom of the rocket as to the amount of time that has passed? although the rocket is accelerating, both observers are at "rest" relative to each other, if they agree they are remaining at rest relative to each other, but the amount of time that has passed is different, wouldn't they also disagree about the magnitude of the acceleration? (although I think they would agree as to the direction of the acceleration)

    • @jimipet
      @jimipet Год назад

      The same thing would apply to earth, so its still indistinguishable

    • @foxhound1008
      @foxhound1008 Год назад

      @@jimipet That is the question, as i believe he is saying in the video that there would be no change in the acceleration climbing up the rocket, watch the video.

    • @thedeemon
      @thedeemon Год назад

      Yeah, the light shall come up redshifted. It "spends energy" climbing the "gravitational well".

    • @DrDeuteron
      @DrDeuteron Год назад

      Yes, and should be able to use this fact to drive the weak field form of gravitation time dilation
      Hint: replace classical kinetic energy with Newtonian gravitational potential energy in the Lorentz factor. It really is that easy.

    • @jimipet
      @jimipet Год назад +1

      @@foxhound1008 Oh you mean the experiment 3? He is not talking about the difference due to time dilation, that would be negligible at 20 miles high, and by no means the 1% he mentioned. He is talking about the 1% difference in gravity at 20miles caused by gravity being weaker by distance (gravity is not uniform), while on the spaceship the acceleration would be uniform across the whole ship.

  • @7thResonance
    @7thResonance Год назад

    Light is indeed affected by gravity just like squirrels. Lmao

  • @raymitchell9736
    @raymitchell9736 Год назад

    If I understand this hypothetical, assuming the rocket never runs out of fuel, and other hypotheticals, but as it approached the speed of light, it could not maintain the acceleration indefinitely... so the experience would eventually end and then you'd know that the you were in the rocket, that's how you'd know... what am I missing here? The fact that gravity causes things to accelerate and that you can simulate gravity through acceleration gives us no more insight or understanding about what gravity is, other than this is it's property. As pointed out by the weight decreasing at different heights. I find this fascinating to listen to and think about... Great Video as always!

    • @Mysoi123
      @Mysoi123 Год назад

      In theoretical physics, mathematics is the leader. We can map out an accelerated rocket somewhere on the Rindler coordinate, where variables like fuel are unrelated because we focus on the underlying physics in that state. As the rocket runs out of fuel, it will decelerate, but we can add more fuel to maintain the same situation. The choice from an engineering perspective is to keep the rocket in the same state. However, it's not a solid conclusion to distinguish, as we don't need fuel in the math, just like always assuming no air resistance.
      Edit : You can accelerate in a rocket in such a way that you float on the surface of the Earth. So, if something is falling from a high building, it will look like that because your rocket is accelerating forward to pass the object. As your rocket runs out of fuel, it will fall at the same rate as the object, and the object will appear to be moving at a constant velocity relative to the rocket.

  • @Jackie-wn5hx
    @Jackie-wn5hx Год назад +1

    Haven't watched it yet, but I'm fairly certain that gravitation and constant acceleration are only equivalent in "UNIFORM GRAVITATION FIELDS."
    The existence of tidal acceleration and inhomogeneous gravitational fields can't be explained in _Special_ relativity and flat spacetime.
    The gravitational tidal forces in _Newtonian_ gravity are the result of spacetime curvature in _General_ relativity.

  • @taziefahmed9750
    @taziefahmed9750 Год назад

    5:15 iv been trying to do this expiriment on my desk with a ball and it appears that the Squirrels would be further apart from each other?

  • @garnergc
    @garnergc Год назад

    Spare a thought for that poor squirrel. If that rocket is accelerating for any significant amount of time an the stationary squirrel falls through a hole in the ship the the landing won’t be so gentle

  • @hamjudo
    @hamjudo Год назад

    I can think of five ways that the gravity on Earth is detectably nonuniform, and therefore can be used to determine if an expendable clone has been moved to a location with 1G that isn't sufficiently Earthlike.
    1. It is not a uniform sphere. Gravity is higher over the denser parts. Although from within a sealed room, it would only be possible to measure a tiny part of the geoid.
    2. It is (approximately) a sphere of a finite radius. The radius can be measured a few ways from within a hypothetical sealed room. An occupant can measure the strength of gravity at two different heights and use those two readings along with the difference in elevation to calculate the radius. That requires a lot of math. Method two is to measure which direction is down at two points and use the distance between them and some geometry or trig and calculate the distance to the center.
    3. Measure the length of a day with a foucault pendulum.
    4. Measure the length of a day by looking for the daily cycle in the strength of gravity. Gravity is stronger at night when the Sun's gravity adds to Earth's.
    5. Measure the length of a month by looking for the lunar cycle in gravity strength.

    • @DrDeuteron
      @DrDeuteron Год назад +1

      It’s the gravity anomaly, not the geoid.

  • @danielgarcia1484
    @danielgarcia1484 11 месяцев назад

    Finaly a channel that uses mks at least as secondary, when i see a video only expresing units in imperial y close the video and dislike, imperial units are very stupid. You earned my respect.

  • @tylerduncan5908
    @tylerduncan5908 11 месяцев назад

    Would it be possible to distinguish the situations by observing a particle that isn't effected by gravity? Like either something massless or something that doesn't interact with gravitons (if we could hypothetically detect them)
    A massless stationary particle would only appear to be affected in an accelerating frame of reference.

    • @narfwhals7843
      @narfwhals7843 11 месяцев назад

      Massless particles are affected by gravity. Gravity is not about mass but about spacetime curvature. Massless particles still follow curved spacetime paths.
      As far as we know gravity is universal. Acting on everything and always attractive.
      If there was anything that was not affected by gravity the equivalence principle would not be valid and we'd have to seriously rethink our understanding of the universe.

  • @MilesMcCusker
    @MilesMcCusker Год назад +1

    I've always wondered this, if the curvature of space equals acceleration, do I eventually get a parabola out of those pesky space/time curvy equations if I rearrange the terms enough?

    • @judgeminty7070
      @judgeminty7070 Год назад +1

      Never thought about trying. But Einsteins field equations give you giant matrices that stretch and pull lines of spacetime to create the curves. I'm sure there's some way to pull some parabolic curves out in there somewhere 😅

  • @Tremendous144
    @Tremendous144 Год назад +2

    Les go another science asylum upload

  • @tomdumb6937
    @tomdumb6937 Год назад +1

    Your feet are in a more intense gravity than your head.
    Small difference, but it's there.
    Near black holes, matter gets torn apart because the part nearer the black hole is pulled millions of times more strongly than the farther part.
    Read "neutron star" by Larry niven.

  • @FlirtUniversity
    @FlirtUniversity Год назад +1

    ➡No squirrels were harmed during the making of this film!

  • @AnnoyingNewsletters
    @AnnoyingNewsletters Год назад

    Assuming current technology levels, can one even accelerate uniformly, though.
    There's always some kind of inconsistency, that might not register on the testing equipment, depending on what it's trying to measure, but will still be noticable to the observer.
    Things like turbulence from an atmosphere or the fluctuations of thrust from the physical processes involved in generating said propulsion.

  • @ronking5103
    @ronking5103 Год назад

    It's funny, because I seem to recall reading how Einstein found this principle to apply to much more than just acceleration and gravity. When he was trying to find a suitable geometry to describe spacetime. Euclidian wouldn't cut it. It's planar, not curvy. This led him to apply the principle of equivalence to both planar geometry and non-Euclidean and how each can approximate the same measurements. After all, we use Euclidean to great extent, on a spheroid. We also use raycasting, straight lines, to approximate curvature to great degree. Scale matters.

  • @threeMetreJim
    @threeMetreJim Год назад

    I would say if you could measure length contraction (some sort of interferometer or very sensitive wavelength measurement), as apparently if gravity is strong enough things are stretched (falling into a black hole).
    Edit: oops, not a uniform field if the stretching is happening. Maybe relative wavelength measurement could be used for some other measurement though? Like how 'flexible' space-time is?

  • @YeloPartyHat
    @YeloPartyHat Год назад +1

    Amazing explanation of the equivalence principle!!! I can't help but wonder what the acceleration into the centre of a mass is caused from though. Are we falling into a dimension we can't observe or is something coming out at us we can't oberserve?

    • @jaredsmith112
      @jaredsmith112 Год назад

      They say that falling towards the center of a mass is due to objects moving along paths in spacetime curved by that mass, not a force acting through space or an interaction with unseen dimensions.

    • @dmitriy4708
      @dmitriy4708 Год назад

      It is pretty strange. As if the gravitational field is about changing the properties of space-time in such a way that being stationary means moving towards the centre of mass from the perspective of outside observer. The very nature of space-time changes so that the future leads any object to the centre of mass, it is mostly bending time, not space. In our case on the surface of the Earth the Earth is moving towards us preventing us from being stationaty, exactly like the rocket moves the clone, just not in a single direction but in all directions from the centre.
      P.S. You cannot even feel the gravitational pull itself, it is not like any other acceleration: you can be accelerated at any rate without trouble of G force aside from the situation when different parts of your body experience different gravitational acceleration like near small black holes. So, it is a fictional force. It can be viewed as if the space is the water and it is moving towards the hole and we are moving with the water, so it is more like space moving than us moving. However it is not a proper analogy, space is not really moving, it is time that bends from time axis to space axis, moving through time becomes partially moving through space and time slows down as a result.

    • @YounesLayachi
      @YounesLayachi Год назад

      @@dmitriy4708 why do you think "gravitational pull is not like any other acceleration" ?
      This exception has no basis in reality, gravitational pull is exactly like any other acceleration.
      G forces are "caused" by reaction forces not by acceleration itself.

    • @dmitriy9053
      @dmitriy9053 Год назад

      ​​​@@YounesLayachiacceleration is something that affects the object like some force, so it can deform the object by this force. Gravity is not a force, it does not affect the object, it affects the space-time in a way that the natural behavior of objects is to move to the centre from outsider's perspective. So, it is different. G force appears only when something prevents gravitational pull's effects, not caused by the force itself.
      Like you can be accelerated by gravity without any G force, however it is not possible by any other force aside from electro-magnetism in case you are charged.

    • @YounesLayachi
      @YounesLayachi Год назад

      @@dmitriy9053 acceleration is not a force, nor is it "something that affects the object like some force".
      You'd need to be way more specific in your wording, but acceleration is not an action

  • @BCole-bj4lv
    @BCole-bj4lv 10 месяцев назад

    Have you ever talked about the eclipse experiment ? I would love to see exactly what they compared to find the delta.

  • @DrZedDrZedDrZed
    @DrZedDrZedDrZed Год назад

    My pet theory about why the equivalence principle is true is all about time, and what time IS. In our universe according to the laws of thermodynamics, any gradient has the capacity to do work. If you think about the paths of the virtual photons within atoms communicating the EM force in an accelerating reference frame, then you realize that under constant acceleration, light travelling in the same direction of the rockets motion will always need to “catch up” to the matter moving ahead of it, as that matter itself travels through the EM field ahead of the light, moving forward. We understand that mass warps spacetime, causing a gradient in the flow of time, which blurs the line between the cause and effect of gravity itself. Well to me, what I think that time gradient IS, in both a gravitational field and an accelerating reference frame, is a backlog on the transmission speed of quantum information. Causality literally has to slow down to “process” everything communicating to everything else where it is in space and when. But it’s a decentralized process, in situ. With gravity, it happens because matter is literally filling space, adding greater and greater “loads” to the network of quantized fields, whereas with acceleration, energy is compounding a fixed load at a greater and greater pace within a localized reference frame. The effect is the same from two different causes, but one is linear (acceleration) while the other follows the inverse square law, which gives us the slight discrepancies in the equivalence principle itself… There is no graviton with this explanation. Motion warps the flow of information, or information itself warps the flow of motion. Gravity effectively emerges from the relationships between matter in an already quantized universe.

  • @chrisjust7445
    @chrisjust7445 Год назад +1

    So gravity can be created (or at least simulated) by acceleration; but what about time? Time slows down with velocity, not acceleration right? But time also slows down in a gravitational field (which is like acceleration). If gravity and acceleration are related, and time is related to velocity or gravity, then that seems a bit like a paradox. Shouldn't time and gravity both be related to either acceleration OR velocity?

    • @thedeemon
      @thedeemon Год назад +1

      If you're in a rocket that stands on the ground vertically, in gravitational field, then clocks at its tail are ticking slower than at the head, due to gravitational time dilation.
      If you're in a rocket in space, accelerating at 1g, then from special relativity perspective you keep changing your frame of reference (because your speed changes), and you need to apply Lorentz transformation to keep track of relative coordinates around, this leads to an effect where if you're at rocket's head, an earlier moment in the history of rocket's tail is now simultaneous to you, and as you keep accelerating this rotation in 4D of plane of simultaneity makes it so that earlier moments of tail's history become "now" to you, which means for you it looks like clocks at the tail are ticking slower than at the head. And you should observe the same time rate difference as in case of gravitational time dilation!
      If instead of constantly changing our frame of reference we want to describe astronaut's view as a single non-inertial frame of reference, we need to use the math of general relativity, and the result will look as if the rocket is inside a gravitational field.

    • @narfwhals7843
      @narfwhals7843 Год назад

      ​@@thedeemonyou do not need general Relativity to describe acceleration.
      Accelerated reference frames are described, for example, by rindler coordinates.
      You can construct them by, as you say, using the Lorentz transformations for momentarily inertial frames tangent to the accelerated world line. This gives you a coordinate system where clocks tick faster in the direction of acceleration just like in a gravitational field.

    • @thedeemon
      @thedeemon Год назад +1

      @@narfwhals7843 that's what I'm saying, yes. Either SR with constantly changing frames from one momentarily flat one to another, or use curved spacetime machinery from GR.

    • @chrisjust7445
      @chrisjust7445 Год назад

      @@thedeemon and originally I thought, another difference is that with acceleration, you can only keep travelling at 1G until you hit the speed of light; but then I realized that time would slow down for you near the speed of light and eventually freeze at the speed of light, so the artificial gravity pull you feel would last forever since time is frozen.

  • @Findalfen
    @Findalfen Год назад

    The movie "Einstein et Eddington" (2008) starring David Tennant (as Eddington) and Andy Serkis (as Einstein) talks about one of those solar eclipse experiences. I recommend watching it.

  • @deholin7110
    @deholin7110 Год назад

    假設光被物體的重力場彎曲每光秒偏折一公尺,反光鏡直徑1公分正圓,鏡外設置光感應器,光束自反光鏡中心偏移到鏡外,有0.5公分,則光源至少必須有照射c * (5/1000)距離的功率。功率越高,光束發散越小,則可測得越細微的光線偏折。
    愛因斯坦星光經過太陽偏折計算式
    (4GM/Rc^2)*(180/π)*3600=1.760638516172007弧秒
    每光秒偏折距離tanθ*c=2558.973380039165932公尺。
    把太陽的數據換成地球則
    =0.000574137836393弧秒,每光秒偏折距離tanθ*c=0.834471939140272公尺。
    從而光線經過重力場是否會偏折?可在地球做實驗驗證。

  • @scarletevans4474
    @scarletevans4474 Год назад

    3:00 if in doubt and in look for exceptions, I always like to "go extreme". Why to think about 1g force, if we can go 1000g? 😅
    Sitting in such fast accelerating rocket should almost instantly kill us, maybe splash us on the floor, while in uniform gravitational field we should be fine, with the force affecting every part of our body and rocket being the same 😉👌(for example, rocket being towed by super black hole)
    Thus, we immediately see that there must be some type of difference (or that we misunderstood the principle!)

    • @narfwhals7843
      @narfwhals7843 Год назад +1

      A uniform gravitational field of 1000g would certainly kill us.
      We aren't comparing free fall but standing on the ground. If you try to stand on a planet with 1000times earth's gravity you will be crushed. Exactly like in the rocket.

  • @0-by-1_Publishing_LLC
    @0-by-1_Publishing_LLC Год назад +1

    (3:05) *_"As the rocket accelerates upward, the squirrel slips through a hole and into the rocket"_* .... Yaaaahhhh, this is my kind of channel!

  • @dimitrispapadimitriou5622
    @dimitrispapadimitriou5622 Год назад

    The Equivalence principle is defined, more precisely, locally, for an infinitesimal region around a "test particle", or around a point of an extended object..
    So the "tidal forces" that objectively differentiate the "real" gravitational field ( with non zero curvature) from acceleration/ "homogeneous gravitational field" for extended regions, affect finite sized objects/ regions, not test particles / mathematical points.
    By this definition, the Equivalence principle is universal for all events ( singularities are not considered parts of the Manifold in General Relativity).

  • @SteveWray
    @SteveWray Год назад

    Whats the equivalent, under acceleration, to G becoming lower as you get further from the center of mass? I'm not seeing anything similar at all with acceleration. Either the experienced level of G is there or it isn't, its always fixed to the acceleration. It isn't as if theres somewhere you can go on the 'spacecraft' which will change the G that you experience...? Is there?

    • @narfwhals7843
      @narfwhals7843 Год назад +1

      This is why we explicitly specify a *uniform* gravitational field, which does not change with distance(or time).

  • @Drcraigpl
    @Drcraigpl Год назад

    Video idea!! Use the formulas for Gravitational force to find the mass of Earth, then compare it to the density of Earth to prove that the Earth isn't flat!

  • @TactileTherapy
    @TactileTherapy Год назад +1

    Amazing that this video comes exactly when I was struggling with a Physics issue that prevented me from sleeping. I was wondering if you could quickly help me. Can you quickly explain how is it possible that a person moving close to the speed of light ages slower as he rockets away from Earth, but AT THE SAME TIME, FROM HIS PERSPECTIVE, it's Earth that's moving away from him at close to the speed of light. YET, HE IS THE ONE THAT AGES SLOWER?
    How? If all motion is relative, how does the laws of the universe know to age him slower and not the people on Earth? To each perspective, both disagree on who is moving. So why does he age slower and not the people on Earth? Am I missing something?

    • @ScienceAsylum
      @ScienceAsylum  Год назад +1

      The symmetry you're describing (where they each think the other is moving) is only true if the rocket is traveling at a steady velocity the entire trip. If they turn around and come back, then the velocity changed direction and the physics is no longer symmetric. The spacetime paths are objectively different.

    • @TactileTherapy
      @TactileTherapy Год назад

      @@ScienceAsylum I see. I am still a tad confused. If he traveled close to c for one year, does his Lorentz Factor not come into play when affecting his aging rate? In other words, does that one year of steady velocity not affect his aging BEFORE he turns around? Perhaps, you can link a video to help me? Thanks a billion, Nick. You are my favorite youtube science communicator.

    • @CodeKujo
      @CodeKujo Год назад

      ​@@TactileTherapy Nothing "affects his aging", less time passes for the ship and its occupants than for Earth. Google "twin paradox", there are lots of videos and writeups on it. m.ruclips.net/video/GgvajuvSpF4/видео.html for example.

    • @thedeemon
      @thedeemon Год назад

      @@TactileTherapy ruclips.net/video/Bg9MVRQYmBQ/видео.html

  • @LisaBucet
    @LisaBucet Год назад

    What would happen if you jump?
    Assuming there is a constant force accelerating the rocket: Wouldn't the force acting in the opposite direction slow down the rocket's acceleration (and increase it once you leave the ground)? Could this lead to a different acceleration profile of the jump in comparison to gravity?
    Or would the force causing the acceleration need to be variable?
    I'm having trouble wrapping my head around this.

    • @narfwhals7843
      @narfwhals7843 Год назад +1

      We are specifying that the _acceleration_ is constant, not the force. The force would need to compensate for slight mass variations, as we are also ignoring what happens to the earth when you jump.

  • @petermoomaw3400
    @petermoomaw3400 Год назад

    Since inertial mass and gravitational charge cancel out when using Newton's Law of gravity to calculate the acceleration of a particle (all objects fall at the same rate), massless particles of light should bend in a gravitational field in Newtonian gravity as well. However, the amount light bends is different than in Einsteinian Gravity, I think mainly due to the fact that in the Newtonian case the particles of light can speed up and slow down, while in the Einsteinian case light always moves at the same speed.

  • @kounaboy7011
    @kounaboy7011 Год назад

    Can squirrels run in space without a reference frame like a tree smashing a foe lost in the forest?

  • @RussLinzmeier
    @RussLinzmeier Год назад

    Any object on the surface of the earth is moving due east at around 1000 miles per hour and also curving downward at the same time because it's path is circular . There is a angular momentum aspect to this movement that applies a force upwards due to centrifugal force trying to fling off anything that might be on the surface of a spinning ball . Any object on the surface of the earth has one force acting on it downward and at the same time another force acting on it in the opposite direction . Gravity's real strength must be hard to figure because you would have to subtract the upward force from the downward force .

  • @Uhlbelk
    @Uhlbelk Год назад

    But constant acceleration requires constant energy and increases the energy of the mass as it approaches the speed of light. So does the energy difference between objects in a uniform gravitational field reflect the length of time they have been in the gravitational field? Does light going through a gravitational field get red shifted as the light "falls"?

    • @narfwhals7843
      @narfwhals7843 Год назад +1

      Kinetic energy is relative. Inside the rocket its energy does not increase. And we are saying that you can't tell from inside the rocket.
      Neither does a person standing still in a gravitational field notice a change in their own energy.
      Light gets _blue_ shifted as it falls in a gravitational field as it gains energy by falling. Meaning an observer on the ground will see it have more energy than the observer on the plain that emitted it. It gained energy relative to them.
      Similarly light gets red shifted as it moves "up" in a gravitational field.
      And both these effects can be observed in the rocket as it accelerates towards or away from the light.

  • @MikeMcCollister
    @MikeMcCollister Год назад

    I have always been fascinated by the Equivalence Principle. However, are the consequences the same for each? For example, if one travels on a rocket at 9.8 m/s/s (or 1 g) for an extended amount of time, there would be significant time dilation. At 1 g acceleration, it will take about 354 days to reach the speed of light and thus time will essentially stop for the traveler. Does this mean that being on Earth with the equivalence of 9.8 m/s/s of acceleration one will experience the same amount of time dilation and time stop after 354 days? Obviously, time has not sto

    • @thedeemon
      @thedeemon Год назад

      Time dilation is not something you can detect being inside the rocket. The outer universe might look funny but you have no windows to notice it.

  • @UpstateAlgaeLaboratory
    @UpstateAlgaeLaboratory Год назад

    I always wonders, if you have an accelerometer that then calculated your velocity relative to an arbitrary rest point. Would you after some time, measure a velocity faster than light. Like if C was 100 m/s, and you accelerate at 1m/s2 would your accelerometer calculate 101 m/s after 101 seconds and cross C. Or would there be some feature of relativity that would not allow you to ever measure a cumulative acceleration of > C?

    • @ZsebtelepHUN
      @ZsebtelepHUN Год назад

      Id guess that accelerometer would turn into a black hole

    • @narfwhals7843
      @narfwhals7843 Год назад +2

      Would you calculate a velocity greater than c from just integrating your acceleration over time? Yes. But that calculation doesn't mean anything physical.
      Would you _observe_ the object recede faster than light?
      No. In fact the object will approach a constant distance. This is very similar to what happens when you observe an object fall into a black hole. As it approaches the horizon time dilation will make it appear to slow down and it will never reach the horizon. An accelerated observer sees time dilation on distant objects.
      On the other hand the speed of light is _not_ constant for accelerated observers. (remember that the speed of light must be constant for _inertial_ observers in Special Relativity) It can be slower or even greater than c.
      For more details see Rindler Coordinates in special relativity or check out Eigenchis' fantastic video series on relativity.

  • @Nf6xNet
    @Nf6xNet Год назад +1

    So, if I understand this properly, light and squirrels are equivalent under appropriate conditions.

  • @bradleybobbs
    @bradleybobbs Год назад

    Thank you! I've been annoyed by so many RUclips videos getting this wrong.

  • @davidkaplan2745
    @davidkaplan2745 Год назад +1

    2:51 : well spoken.

  • @Sq7Arno
    @Sq7Arno Год назад

    Hmm.. Good point. There are no uniform gravitational fields in nature. (Are there?) The squirrel will always fall a teeny, tiny bit faster in the rocket than on Earth. Since on Earth it will always fall from a location where the gravitational field is a teeny, tiny bit less than at ground level.

  • @EricKolotyluk
    @EricKolotyluk Год назад

    Thank you for finally addressing one of my pet peeves in science explanations... the equivalence principle requires a uniform gravitational field to make sense... For you next mission, please explain where in the universe a uniform gravitational fields exists, or could exist...

    • @narfwhals7843
      @narfwhals7843 Год назад

      We don't need physical uniform gravitational fields to apply the equivalence principle to thought experiments. We can define "local" infinitesimally and extrapolate to real physical effects.
      The equivalence principle does not preclude tidal effects.

  • @beansnrice321
    @beansnrice321 Год назад +1

    Woah, nice new animation budget! =D

    • @ScienceAsylum
      @ScienceAsylum  Год назад

      Thanks! 😄 To be honest, it was rather expensive. I can't afford it on the regular (even though I'd like to).