I upticked this comment because it made me laugh out loud literally - I'm not saying anything bad about the video; it actually helped me understand it a lot better, but I don't feel like I completely grok it yet.
This is why it took someone like Einstein to discover this. At the simplest level, just consider mass as a kind of frozen energy. 1gm of mass is roughly equal to about the energy of18KT of TNT. The mass of uranium that was actually converted to energy in the Hiroshima bomb was only about 1 gram; the weight of a paper clip. The rest of the bomb was just vaporized.
I'll need to watch this a few more times to fully get it, but understanding that we're all moving in spacetime at c really clicked for me from this video. Thanks!
Yea it seems this wasn't as easy as to follow for viewers as I thought. I realize I have no idea how this video would come across without prior knowledge of some of the concepts I take for granted (eg; we are moving through spacetime at c). I probably need a focus group. I am hesitant to do this as it would make the creation process even longer. But it's likely where I will need to go if I want to improve.
@@ButWhyScinah your work is cool. If I can't fully comprehend something right now, it boosts my curiosity about this and gives motivation to know more Also your videos are funny 😊
@@ButWhySci This was pretty good to be honest, but might need a reshuffle to be clearer. Maybe talk to a friend that does UX and ask about the wireframing process and Lean UX methodologies. You'll be surprised how fast you can iterate complex ideas into something simple. I'll volunteer for the focus group though 😁
There is actually a reason why momentum is conserved. It's called Noether's theorem, which says, that for every symmetry of a system there is a quantity that is conserved. Momentum conservation corresponds to translational invariance.
Is it not a cyclical argument? If there wasn't conservation of energy then there wouldn't be the symmetries to create/define. At least that's what I interpret. I could be wrong.
@@ButWhySci You are right in the sense, that for every conserved current there is a symmetry of a Lagrangian (so Noether's theorem is an equivalency). But symmetries seem to me more fundamental than conservation laws.
@@algolin Agreed. Another way to think about conservation of momentum is that it's a consequence of Newton's 3rd law. Granted, you can also argue that it's the other way around, i.e. that Newton's 3rd law is a consequence of conservation of momentum, but Newton's 3rd law (the law of equal & opposite reactions) seems more fundamental* to me than conservation of momentum. *Sidenote: As a fun analogy to explain why I find Newton's 3rd law to be more fundamental than conservation of momentum, consider the game of chess. Bishops start the game either on a black square or on a white square, and they can only move diagonally. Since diagonally-touching squares on a chess board are always the same color, then a consequence of the bishop's "diagonal-movement law" is that they are bound to spend the whole game on squares that are the same color as the square they started on (e.g., a bishop that starts the game on a black square can only be on black squares throughout the game); this would be the resulting "bishop color conservation law", which I think we can all agree is less fundamental than the bishop's "diagonal-movement law".
yes I had this question for very long time. everyone seems talking E=MC² without even know what C does in that equation. so when ChatGPT came around, this is one of the first questions I asked to it. but it still can't satisfy my curiousity. WHY IS IT HAVE TO BE A SPEED OF LIGHT, AND WHY IS IT HAVE TO BE SQUARED? it's must not be just because it's a mumbo jumbo big numbers. this video in the other hand, satisfy my curiousity. thank you!
This has been a thorn in my side for 20 years.. never had the time to investigate it through all my physics courses at the university. Dynamics, statics, thermal etc…no explanation was ever attempted. It was just a fact, a baseline to move from. Thank you. That itch has finally been scratched and I can die in peace…🤣😇😎
This is profound. The way you have explained 4 variables (Including Ct) with a 3 axis graph is amazing . I have been watching Space Time explanations for a while now and I find this really intriguing. Thank You Sir !
My guy, I absolutely LOVE your channel. Your didatics are above what one would expect from a free youtube video and I wish I could donate to show my deep admiration for your work. I'm a insatiable curious person and you help me keep the learning ball rolling so effortlesly by teaching with those funny animations, you've helped me understand so many complex topics that I had seen before but didn't fully grasped the concept until I saw the way you break down each pice of information. It helps me contextualize and fit everything togheter in my mind's puzzle about how the universe do it's thing and feeds the flames of my imagination. I don't usually comment on videos but you deserve it, thank you so much! Hope the very best for you and everyone out there sharing knowledge for free. (Sorry for grammar mistakes, self english learner)
M=E/c² is how God created the universe . This is how physical matter that never existed was created by energy, same way nuclear reactors create non existent energy. Intelligent design argument? Logic science 101 Law of contradiction A=B impossible contradiction subjective illogical reasoning Law of non-contradiction A isn't=to B objective absolutely true logic A nothing caused evolved the contradiction effect of = B something This is A=B impossible contradiction, nothing can never cause something, it can never be demonstrated nothing caused the effect of something, simple In labs A isn't=to B is observed A nothing caused the effect of = A nothing B something caused the effect of = B something Now, A non intelligence caused evolved into the contradiction effect of = B intelligence This is A=B impossible contradiction subjective illogical reasoning Your intelligence came from an intelligent source logically which is absolute truth A isn't=to B objective absolutely true reason. EVOLUTION is A=B impossible contradiction A no brain organisms caused evolved into the HEINOUS CONTRADICTION EFFECT OF = B a brainiac organism This is A=B impossible contradiction subjective illogical reasoning. A prokaryotes no nucleus, mitochondria organelles, and never mitosis and meiosis in dna caused evolved into the HEINOUS CONTRADICTION EFFECT OF = B eukaryotes with dna magically making a nucleus, mitochondria organelles and mitosis and meiosis from nothing in prokaryote dna instruction. A=B impossible contradiction subjective illogical reasoning Cool eh...😎👍❤ Have to love simple logic science 101.
I feel like this video was harder to follow, compared to your previous videos. Why do we move at constant speed through space time? Why does adding time dimension suddenly makes velocities not relative?
1- This is a principle of reality. It doesn't explain why, it just says it is, kind of like why light has no mass or why do particles have charge. 2- Basically, the theory says that to make the speed of light not relative to observers traveling at different speeds we need to modify time, since speed = d/t, we can modify "t" so that d/t invariably gives a constant value for the speed of light.
Our velocity through time and space being constant makes so that everything moving relative to us have a vector of c, so if they are moving in space(relative to you) they are slower in time, maintaning a constant speed in time and space
basically everything move at same constant speed C, nothing relative. but a lot of objects in universe 'looks' move at lower speed, time dimension is where the missing velocity goes. if you 'stationary' all your velocity goes in time.
This also elegantly explains why you are moving slower through time as you are moving through space. When you move at the speed of light, time stops (for you). The combined speed of your movement through space and time is always C
It's elegant, but it kind of raises the question: if things seem to move slower in time as we move faster precisely because we observe everything to move at "c" through spacetime, and thus faster in space = slower in time to compensate... then how does the speed of light remain constant in all frames of reference? I know it comes out of Maxwell's equations, but from this physical framework of "constant spacetime speed", how does it fit?
@@IceMetalPunk Actually nobody knows what the speed of light is invariant in all reference frames. That's literally an assumption Einstein makes based on experimental evidence related, like you said, to Maxwell's equations, but that assumption isn't something that's mathematically proven directly from them. It's really basically just an "educated guess" that it's true. But once you make that assumption, all of Relativity is derived directly from that. And experimentally Relativity has held up extremely well as a mathematical model of the universe, so that lends a lot of experimental evidence to the speed of light being the same for all observers (because if it wasn't then Relativity wouldn't work.) So the short answer is nobody actually knows why the speed of light is invariant, it's truly a mystery because it's pretty unintuitive to our everyday experience in the universe. But "numbers don't lie" and experimentally it really seems to be the case because, when you assume it's true, Relativity is the model that results and it's a fantastic predictor of real world physics.
The propagation of photons and also the continuous instantaneous EM fields produced by charges must depend upon charge location (mass location) for direction and intensity only. The speed of travel must be a constant function of the media (space) between all charges. This is good evidence that space is some kind of physical reality rather than nothing.
FINALLY. Countless times I've seen people explain it as if they've done so completely, either by dimensional analysis (simply calling c^2 a "conversion factor"), or some other hand-wavy way. At some point everyone just seems to say "that's sufficient for me!", but I have been unable to alleviate the itch that the first c is our motion through spacetime, and the second c is the real conversion of matter into energy -- for what is mass but locked up energy, and what is this energy in its purest form if not light?! Thank you
The dimensional analysis method shows that it could work but it doesnt explain what makes it so different from the formula for kinetic energy (which is also in units of mass * velocity ^ 2). This does actually explain a LOT of things
@@SolidSiren c^2 is simply a ‘conversion factor’ if you’re satisfied with that like a lot of explanations here on utube, but it’s also much more than that if you are smart and inquisitive. Dimensional analysis only truly makes sense when you understand what’s going on within those dimensions.
On a side note this is also where time dilation from motion comes from. (you brush on that with the fission reaction example) Your 4D speed is locked at c - always, so if your moving rapidly through spacial axis of the 4D spacetime there is "less room'" in that c value for movement through the temporal axis. (Technically ANY slight motion would come with the tiniest amount of time dilation, its just negligible until you reach reasonable fractions of the speed of light)
wow! this is the first time ive been able to understand the concept of relativistic mass. I've always heard the dumbed down explanation of "at high speeds, objects gain mass" and i thought that the energy of the object was being directly transformed into massive particles. Thanks for this video, guys. def my favorite one yet!
There's no such thing as "relativistic mass." Increasing velocity doesn't increase mass to compensate for the increase in energy; it instead increases momentum through space to counter the increase in momentum through time (aka energy) so that mass stays constant. Acceleration is little more than a rotation between time and space. The reason there's confusion is because E = mc² is either incomplete or just _wrong._ It's missing an extra spatial momentum term on the left hand side, or E should be E₀ to explicitly indicate that there is no spatial momentum.
this is strange to not include the full equation: E^2=(MC^2)^2+PC^2 which covers the energy of a massive particle plus its momentum but in massless particles simplifies to E=PC and in massive particles not moving through space simplifies to E=MC^2
You just blew my mind, I have always known and accepted from relativity that time seems to tick slower the faster you go (time and speed relative to something else), but I have never once heard that its because we move through spacetime at C. In general I would have to agree that this video is a bit more harder to follow compared to your other videos, but those other videos are amazing!
Now compare the passage of time first when waiting for a bus and waiting to be executed by firing squad. Now suppose that the bus driver will be executed by firing squad the moment you board his bus.
My takeaway: everything movies at the same speed through spacetime (c). So even though I’m walking and a car appears faster than me, we’re going through the same speed in spacetime - I.e the car moves slower in time than me. I.e the car experiences less time. A photon would experience no time because it’s movement is essentially only in space. Phew! Lovely way of thinking of it. Though I did get a little lost with the momentum stuff. Doesn’t the whole equation have a momentum component? How does that fit in? E2=(mc2)2 + (pc)2
In reply 1 the Lorentz factor tells how much the cars time has slowed. It also tells us how the car has shortened. I find it easier to realize that the car is made up of charges separated by EM fields. The fields can only go at the speed of light and no faster. If the charges in the car have a net velocity this must come out of the velocity which give the car atoms their length. Of course the changes are so very small.
Regarding the photon having "no time experience". It means that the photon is equivalent to an entity where no other spatial motion is possible because all its motion is taken up in the unidirectional forward c velocity. However, we know photons oscillate between field extremes over time. Therefore the field oscillation is not an actual distance oscillation but rather a physical field property oscillation which is not any part of movement as we know it. It is a perfect oscillation in some field or space fabric. Note photons can keep oscillating over billions of years.
This is a useful primer, I'll have to admit. It doesn't quite explain how C or C squared is a conversion factor but it moves me in that direction. No pun.
"The first is that momentum is conserved. I don't know why, no one knows why, just in the universe momentum is conserved." I never really got the whole mystery over momentum being conserved. If you accept Galileo's Principle of Relativity then all reference frames are equivalent; there's no absolute reference frame. No Aether that we're all passing through. This is about as settled as science gets. So, Newton's 1st follows from that. Do nothing, nothing changes. If there's no force, then being at rest and constant motion are the same state. So of course momentum is conserved, how could it not be? If, like me, you've ever modelled the solar system or anything in 3d for that matter then conserving momentum is what happens when you don't programme anything about momentum. You just let it run, things collide. Stop at any stage and tot up your momentum, and it's always the same. How could it not be? That's the default. Conserved means it doesn't change and it doesn't change because nothing is happening to change the total, just how it's divvied up between things.
Btw, your vector arrows above p and v are the cutest I've ever seen. They're damn adorable! Lovely video as always, great way to communicate the science. :)
@@nicholasauwaerts2280 Spacetime is a field, not a frame. There is no absolute reference frame. If two spaceships pass in a void then it's equally valid that one frame could hold spaceship A stationary and B moving and another could hold the B stationary and A moving and they're equally valid because no experiment could ever favour either of the two statements. It's very counterintuitive and overturned two millennia of thinking; Galileo isn't considered one of the greatest thinkers of all time for nothing.
@@davidmurphy563 In a way, couldn't a Field be called an aether? I can't seem to find a definition of Field that satisfies my mind. There is no 'empty' space, correct? How do they detect gravitational 'waves'? They say there is a ripple ( A wave attribute. Just a small wave, now that I think about it) in the FABRIC of space-time. What is the difference between a 'fabric' and a 'field' and an 'aether'?
@@noahway13 Well, we're all free to define any word to mean anything we please but usually "aether" is taken to mean an absolute reference frame (coordinate system) that we all exist in. This was famously shown in the Michelson-Morley experiment to be untrue; much to the astonishment of scientists at the time. A good part of Einstein's genius was accepting the experimental evidence. It had been noticed that light behaved like a wave, so as all other waves propagate through a medium it was assumed there was an underlying medium to the universe that it travelled through. They did the experiment and it doesn't exist. If you're travelling at relativistic speeds on a spaceship but not accelerating, then you are at rest. It's perfectly valid to say you're sat still and the galaxies around you are moving, not you. Weird way to look at it but you can. That doesn't mean there isn't a "fabric" of space with gravitational waves and all the rest (the field). Just that your perspective of it - drawing a coordinate system with you at the centre - is perfectly valid. As is every other. I'm not saying there's no coordinate system, only that there isn't a preferred one. Relativity is the explanation of how all these frames coexist simultaneously. It's the maths that makes them all gel together.
A lot was slotted into place with this one! I now know the mechanics behind time dilation! As movement through space approaches c, the movement through time slows down to compensate! Well, that’s my mind blown. Welcome to the “Ned’s mind blowers” playlist!
Except that is wrong. Time is the product of observation, ie: a local effect. Different location while all existing now are only the 'present' of the observer. All else is the past, a measurable disparity. Motion changes relative distance and time. The apparent dilation is only relative to an external observer. The object moving does not experience weird effects, it still takes a year to go a year.
@@marcon33 The incoming muon can be better explained thus. Moving at .997 C means that every nano-second ( 10^-9) it moves about 1 foot. With this movement it becomes closer by just less than that same nano-second, and relative to the observer it becomes younger by that amount. Relative to the observer the muons loses 'age' as it approaches. This has the effect of it appearing to move faster than light (the D remains the same, while the relative T is smaller). The muon does not de-age, nor does it change its speed OR the distance travelled. The effect occurrs only at and WITH the observer, and exists because relative to that observer it is moving at nearly the "speed" of time; 0.997 C ( which we should call the speed of causality)
@@sonpopco-op9682 The moving object still observes the time portion of its movement vector as being at right angles to its space axis and being of length 1c. The resultant rotation of its coordinate system matches the "flattening" of space that's part of those dilation effects. And no, it's not just an observation effect. When you bring an object (e.g. a clock) up to speed and then back to its starting point, it will have experienced less time than an object that stayed there. While those two objects could debate which one is moving and which one is stationary while moving at a constant speed, only one of them will have experienced acceleration and deceleration.
@@HenryLoenwind at right angles? More math mumbo-jumbo. You are introducing an imaginary dimension and giving it magical properties. Not allowed. time is pure perception. Anything you measure on the object you have applied forces to will still be your observation.
We could see it also in a different way. As you say momentum is mass times velocity. Mass is then momentum divided by velocity. Which means that mass is point in space that has certain potential energy, this energy is then translated to kinetic by plain fram of reference of final possible speed distribution, and this plain of distribution is simply c squared. So any point in space that possess some potential energy can be converted into kinetic energy which is distributed through finial speed, speed of light plain. It doesn't matter which direction. Because it is in all directions. Also can be converted into kinetic energy with speed of light and then becomes photon. I hope you get the point of my perspective. This is why this equation connects classical physics to quantum mechanics, because is valid in both frame of reference.
Hearing your words over 1:45, it finally clicked why I never got it until now. E = M to the assless power times C squared. My attention span has always just given out once it realised the mass was assless and realising that was all it took to power through!
Velocity and rate of time are exchanged on a spectrum. The greater the velocity, the slower time passes. P1. If you could zero out your velocity to never move your x,y,z coordinate relative to space itself. Time would speed up!
@@jayde4872 that's a more philosophical question, really. Basically, it all comes from the assumption that we aren't in any way special. Our place in the universe as a whole is no different than any other place, if we discard every bit of matter and everything and just sit in completely empty space. And, fun fact, that's definitely not the case in general relativity where energy and momentum can only conserve locally because space-time itself is clearly not uniform.
That’s not really why.. that’s a theory built to explain natural phenomenon, but mathematical abstraction is not the reason why momentum is conserved. There is no “reason”, it just is because it is.
3:26 does this mean that light doesn't move on the time axis? Since all its speed is in the 3D space, then it doesn't have the ability to move forward in time. Unless I'm completely misunderstanding this
I don't respond to a lot of comments. But just wanted to say your intuition is exactly correct! Light does not experience time. Good job extrapolating information into a new idea. Those are the kind of questions that lead to good science.
This video is by far the most informative and absorbable of any I've seen so far! I can't say I fully understand it yet but I don't think most will understand it quickly unless you have a good background in physics.
1:15 I was under the impression that binding energy had mass, I could’ve sworn I heard somewhere that something like 98% of the mass of nucleons came from the quark’s binding energy and only a small percentage of the mass came from the higgs… field? mechanism? boson? I really don’t know enough about physics
that's true but there's some nuance here for the sake of mental sanity about what's massless and what's mass..ful? really, here we're considering binding energy to be "massless" just for the sake of saying it's energy
This is a good question. Binding energy is a general term en.wikipedia.org/wiki/Binding_energy . It can refer to multiple forces. The binding energy you are referring to is that of the strong force inside a quark. You are correct in that, since it is confined, it has mass and it doesn't really change. Then there is the binding energy due to the strong nuclear force (different force than the strong force). When two nucleons approach, their produced pions can interact with the other nucleon, and to spare you the details, this interaction permits them to lower their energy state. Since they now have less energy they have less mass. So when you fuse two nucleons, you lose some mass to "binding energy". The same thing happens in regular chemistry when electrons bind with other atoms (In exothermic reactions). This is also called binding energy. And just like with fusion the new molecule has less mass. Though, the difference is miniscule compared to fusion. If you are more curious I highly recommend my last video on fusion where I discuss binding energy in depth.
@@ButWhySci Thank you for the explanation! I think I will check out your other videos and see if they’ll help me understand this stuff better. I’ve often found that the terminology in particle physics can get pretty confusing.
I had noticed before that e=mc2 was similar to the kinetic energy equation. Thanks for confirming the connection. From college physics, I recall how e=mc2 falls out as corollary of the more general Lorentz transformation, but for some reason it took decades before it dawned on me that this was the "Lorentz" transformation, not the "Einstein" transformation. Because of Einstein's fame and probably because of the iconic, frizzy hair, we tend to forget how the foundations of special relativity date back earlier, to the 1800s. Einstein may have also taken some ideas without full attribution from the contemporary mathematician, Hilbert. But we will be fond of Einstein's genius, anyway, especially because of the frizzy hair.
I had the same question as you in high school. I could find the answer at university (although I was studying engineering). take a look at the answer I provided above.
Here's my take on the topic of this beautifully animated and beautifully spoken video. I disagree. E = mc² (according to Einstein’s theory) always holds. You don't need to convert energy. I thought that for a long time. I think that the truth about this equation is, if the energy of an object increases so does its mass. If the mass decreases, so does the energy. The calculation for that is pretty straight forward. Off the top of my head, I can come up with one scenario, where actually all of a particle’s mass is “converted” into energy is, when a particle meets it antiparticle, e. g. an electron and a positron collide. A photon is created with the energy of 2*m_e *c², which is in the gamma (or X-Ray) spectrum. After that conversion E=mc² can no longer say something about the particles, because they don’t exist anymore. However, this formula tells us: you can put that photon’s energy into _something_ and that _something_ will gain the mass m=E/c². I imagine you could create two antiparticles again, out of thin air (I mean vacuum). Now onto the second thing that drives me crazy: c_0 = 299,792,458 m/s, per definition of the meter. You can’t move through space and time at something meters per second. Distances in spacetime shouldn’t be measured in meters, rather a mix of meter and seconds. But I read in Wikipedia, that spacetime is not a four-dimensional Euclidian space, like I always thought it was (thank you @ButWhySci that I know that now!). The mathematical construct is to multiply a time delta by c_0, square it and subtract the square of a space distance, to get s², whatever that means in the real world. Also, I don’t think Einstein’s professor Minkowski proved that we live in a four-dimensional reality. For as much as I know, general relativity disagrees with quantum physics and neither of them can prove the other wrong. But we know: one of them or both of them are wrong. From a theoretical standpoint: no physics theory can ever be proven, only disproven. 3:38: suddenly, _everything_ is relative: What it means for velocity through Minkowski spacetime to be constant is: you slow down if you move faster though space (that is you move slower in time) and you speed up if you decrease your velocity through space. Also note, you yourself will percept that change in time-velocity not own yourself, but on others who have a different velocity (though all have the same speed, that is magnitude of velocity). And these others will see your slow down, just like we can see experimentally that Muons only survive the journey from sun to earth, because their time is slower than ours’ (from our perspective). 4:04: But why, should the conservation of momentum also hold for velocity through spacetime? 6:58: But why??? You lost me there, actually. After that, it seems to me, that there is much hand waving. What do I take away from this video? First, that I don’t know a lot about relativity. Secondly, that the mathematics of relativity is really not suited for giving a fundamental understanding of E=mc². But I also take away a few more minutes thinking about relativity and learning about it, so THANK YOU! PS: sorry for the puns
Yes I agree that using poison dagger with 90 points of critical damage is good but it is outshined by bloodlust one handed axe. Reasons why, first the axe does 20% reduction per .65 second of enemy's current HP. Second, it provides a trail to affected enemies and following the line of trail gives the player 75% speed boost. Third, continues strike grants 15 HP Regen and if you have an item that double or increases your attack speed you would easily recover more faster. And lastly the item is deadly when paired with other items that synergies with it well. Having cape of kings, amulet of Ra, mercury's boots and genie's ring; you'd be OP.
We know why momentum is conserved, this is because our universe has translational symmetry. From observation, we see that the laws of nature remain unchanged if you move 1 meter away from where you are. From this observation alone arises logically, through Noether's theorem that there is an inviriant quantity associated with this symmetry and we call it momentum. It means that as long as translational symmetry is a good description of the actual world, momentum will be conserved. There are two other important symmetries that have their own invariant : Rotational symmetry -> conservation of angular momentum Time symmetry -> conservation of energy
I don't know if I am onto something or not but hear me out here: Inertial or gravitational mass doesn't make sense in this 4D spacetime(where everything travels at a constant velocity,c). Mass can be defined as the property of an object that resists acceleration(a = F/m). However you CANNOT accelerate OR decelerate in this 4D spacetime as everything HAS to move at the speed of light in spacetime. Your velocity through spacetime(combined) is a constant,c. Since Space and time are on two different axes,you can represent your velocity as a combination of your velocity through time and your velocity through space. Think of normal everyday acceleration(the one that u feel in your car going from 0 to 60) as the part of your velocity through time DECREASING and your velocity through space INCREASING. This is the reason why time dilates at significant fractions of the speed of light,since velocity through time has to compensate for the increase in velocity through space. This compensation is required to keep the object moving to spacetime(combined) at only one velocity,c.(Remember that all objects have to move through spacetime at velocity,C)
No, all identical clocks tick away at the same rate, everywhere, and under all circumstances of the motion and orientation. This is fundamental to relativity (Local Position Invariance and Local Lorentz Invariance, respectively).
Yes, the faster you move through space, the slower you move through time. Though you always experience a second being a second since everything else moving at the same speed slows to the same rate of time as well. The effects of timedilation is seen relativistic to other's frames of reference. This also means that there is no speed limit of c in your own frame, c represents infinite speed for you, but since time slows down you would effectively never move faster than c in other's perspective, as their time appears to move faster in your perspective. To them you are approaching c but never quite getting there while they are growing older seeing you attempt to reach it. For you, you surpass c while seeing them grow older at a faster and faster pace. Of course you can never reach infinite speed in your perspective (as it is infinite), just as you can never reach c in their perspective.
@@pon1 That is completely and perfectly anti-relativistic. Correctly, the faster a traveler moves through the observer's coordinates the slower they move through the observer world-time. The "c" in relativity is the norm of the vector tangent to a world-line [g(U,U)=c^2], which is why inertial observers measure the local vacuum speed of light to be "c" (light is restricted to the null structure of the gravitational field). It is fundamental to relativity that all identical clocks tick away at the same rate, everywhere, and under all circumstances of motion and orientation (Local Position Invariance, Local Lorentz Invariance, respective].
@@kylelochlann5053 I just said that. What did I say that goes against what you said? I just said it in language the people can understand instead of your jibberish.
I love the little touch of the digitized Mozart's Requiem at the start. It nicely represents the true DREAD emerging from the philosophical implications of the equation in question.
Physics just great. It's so impressive to fully grasp all the systematic connections between literally anything. As my professor once said: Physics is not math, it's the language of the universe. And I truly believe that we are just getting started to explain our universe and with that EVERYTHING: Side note: I am writing a physics exam in about 11 hours so please accept my excitement and enormous respect LOL
No, this is a tautology. You're not explaining "why" but restating "what" again, and in obfuscated verbosity. What and why are 2 different things and to conflate them is bad science. And when in the hell did "C" ( @ 3:56 ) become "its speed through space" and cease being (specifically) "the speed of light"?!
Beautifully broken down. This is why i personally keep harping upon the value with necessity of such fantastic explanative Presentations, given the distinct implications that Civilization now invariably requires, so as to best further-progress, whereupon our Species would ultimately accomplish those Ends that inevitably make our Existence, of substantial impact.
I remember asking a teacher in middle school, high school, as well as college. Why isn’t it e=mc to the power of 1.6 or 1.8) basically why do things have to be squared or cubed, ect. The simplest way to explain it, is it’s easier to calculate it with the first integer containing the decimal rather than the power
Everything needs to move through spacetime at the speed of light. If you're motionless in SPACE, then you're moving through TIME at the speed of light. If you're moving at the speed of light through SPACE (like a photon), then you cannot be moving through TIME. Thus, moving somewhere between the two speeds would mean that you're moving through time slower than if you were motionless (time dilation)
@@Squid2214 Moving at the speed of like like a photon is more like moving at an equal rate through space and time. Actually moving entirely through space with 0 momentum through time would likely be a tachyon and would require imaginary mass.
@@angeldude101 Photons do indeed experience zero time. Since neutrinos can change state, that means they have to experience time. That's how we were able to predict that they don't quite travel at the speed of light like originally thought. Photons do not change state. Another way to think about it is length contraction. The faster you go in space, the shorter your travel distance seems to be. If you go the speed of light, your travel distance shrinks to 0 exponentially (which means it takes you no time at all to cross the entire universe, at least in your frame of reference)
Albert Einstein was thinking about the ancient installers of Floor Tiles. The idea was a unit of measure being square in itself, then how to determine how many tiles you need to cover any floor with the tiles. So taking a measure squared, accounts for how they figured out how many floor tiles were needed to cover the floor. Length and Width, to fill it will equal units of measure. say you have tiles that are one square foot in size. So then you measure the room, length and width and calculate how many tiles you need to cover the floor. Albert Einstein said that great discoveries often begin as just childish ideas that grow over time to be brilliant.
I liked your animated presentation, very nifty! The fundamental dimensions, M,L,T must be equivalent on both sides of the equation so that demands that the energy on the left hand side dimensions must = the dimensions of the right hand side. The way that that is achieved is "C" is squared!
Hmm... Well, what he said was absolutely spot on - this was 100% absolutely accurate science and from an interesting perspective to boot - but I'll grant there was a lot of prior knowledge assumed... For example, he referred to the "dot product" at one point (without actually saying the term) and without explaining what the term "vector" or a scalar quality is. Much less explaining what the operation is or why it was relevant; he just said it's multiplying (which is true). You don't need to be a genius to learn this, but it needs study for sure. Nobody will guess it from this. 0% dumb for not. Yeah, I think on balance your comment is fair, he assumed a knowledge of maths which most people have never been remotely taught. If you do know it then you're nodding along but gaining the necessary grounding is many videos of information. Yes, the groundwork was lacking. You're certainly not dumb for not following. The problem is that with any layperson's explanation you kinda have handwave things or you're just offering an academic course. It's hard balance to strike in a short video format with grand aspirations.
This is normal sleight of hand. He couldn't provide it if he tried as he is a makeup of irrationally contrived abstract concepts through parroting as a youth that was provided propaganda.
@@lifeunderthemic Nothing of what was said was irrational or sleight of hand. It was accurate science which is based on a mountain of evidence. The satnav on your phone uses relativity calculations to work; this has practical everyday use. The criticism is that this video boiled many 1 hour videos into 8 mins. Not that anything said wasn't entirely accurate; it was.
This is easy. C^2 = E/M the energy in/as matter is distributed over space and time. and we know that space and time (length) is different from place to space (relativity). So you can consider space and time to be a 'volume of space' c^2 is the 'volume of space'. This gradient in the length of space and time is what we feel as gravity. Space and time get shorter in lower gravity (the second is shorter on the ISS and longer at the center of the earth), the speed of light is constant, so the length of space must also vary by the same amount. E = MC^2 M = E/C^2 C^2 = E/M
The best explication Bc energy is SI is equal to j which is equal to m*v² And c is measure same as v(l÷t) so we need to square to get the same measurements
So if I just sit still and dont move, i dont move through space, but i move through time at the velocity c. Thats why a particle that moves at the speed c through space, doesnt experience any time, right ?
Wait, so is the fact that we are always going C speed throughout space time the reason for why when you go travel really close to the speed of light you go through time slower? I’m thinking of this as a vector with a constant length: the bigger the x component (space), the smaller the y component (time). Is this wrong?
I’ve concluded that one has to have a certain level of intellect to understand this stuff and I just don’t have it. So I’m gonna peace out and go back to watching puppy videos.
6:59 does this have anything to do with scalar light? I’ve heard of it existing but don’t know much about it. Apparently has the potential to create instantaneous communication devices or directed energy weapons if used the wrong way
For anyone confused, I remember a video where they explained speed as an arrow with constant length (c) and variable angle (space-time trade-off). There's a horizontal space-speed arrow, and a vertical time-speed arrow. The length of both straight arrows depends on where the angled arrow points. Thereby explaining why nothing can go faster than c (in time or space), and showing how there's no such thing as "absolute speed", as all speeds are just fractions of the speed of causality (c)
7:30 the revelation i got from that was that motionless things experience time as 100% (=c) but the more motion u have (since c is a constant) the smaller the portion of this velocity in direction of the t-axis, hence things in motion experience time to a lesser degree. like a clock in space would tick faster than on earth. my (anthropomorphic) explanation was always, gravity pulls not only mass but it also pulls on time forcing it to slow down, but since gravity=acceleration and thats in turn velocity, both metaphers are the same, just seeing the coin from the other side.
Could there be a geometrical aspect to Einstein’s equation, E=MC² energy equals mass times the speed of light squared? The C squared can represent light radiating out in every direction forming a sphere 4πr². We have square the radius r² of the sphere because the process is relative to the spherical surface. The interior of the sphere is naturally three-dimensional forming the three dimensions of our everyday life. If we place the Lorentz contraction ˠ of space and time ∆E ∆t ≥ h/2π between the energy ∆E and mass ∆M we link time within the process. The surface of the sphere can form a boundary condition or manifold for the process of energy exchange that forms our ever-changing world. We measure this process as a ‘period of time’ with the atoms of the periodic table being standing waves in time. The spontaneous absorption and emission of light photon ∆E=hf energy is forming potential photon energy into the kinetic energy of electrons. Kinetic Eₖ=½mv² energy is the energy of what is actually happening. An uncertain ∆×∆pᵪ≥h/4π probabilistic future is continuously coming into existence with the exchange of photon energy.
Am I correct too say? If one could sit motionless at the singularity at the point where big bang started then time is moving away from me at the speed of light?
It feels eerie when you understand this and start thinking about all the ways we divide energy into many other forms and its essentially always about just adding package that slows it down. And in our universe how much slower is always referred by time and distance e.g. spacetime. 🤯
E=MC2 is Energy=Mass Converted Twice. I wrote the equation. It is a space equation that is only relevent to space travel. It is about converting hydrogen and oxygen into water, then ice in space for thrust. While bending space infront of the spaceship you can ride the bent wave using hydrogen and water as the thrust to push you onto the wave.
Lol will need to rewatch this, I did not know about the relation between space-time and this equation, like I know all the other concepts, but this was the missing link and it just makes sense. Thank you for this.
My understanding when I first questioned it was because energy spreads in an area (X^2) and E refers to ALL the energy not just the single linear Energy you get when calculating Force or Acceleration
In the concept of elementary particle as a quantum of the closed persistent energy flux of the electromagnetic oscillation, the mass m[kg] is defined by m=(htrans/c).(1/r) r[m] is the reduced Compton wavelength for the mass m[kg]. Implication is that htrans={m.r.c} , [kg. m^2.s^-1] The energy E[J] is defined by htrans.omega= htrans.(c/r) = {m.r.c}.(c/r) = m.c^2 In general, to any large mass, there can be attributed the "virtual" ring with radius r, keeping the relation for mass still in play. E.g. for m= 1[kg] 1[kg] ~ (htrans/c). (1/{3.51767x10^-43 [m] } ) because (htrans/c) is the "momentum of mass" in [kg.m] And, consequently for any non zero mass m.c^2 = E(energy) in [J]. However, not vice versa in general. The straight(!) junck of the energy flux of the photon, with "infinite" radius r(photon), gives (1/r(photon) ) tending to zero value (of energy flux bending) (!). The zero mass for photon(!). Inspite that the photon has non zero energy in Joule. E(energy)/c^2 # m[kg] for photon. See "World of the rings" on ResearchGate.
I would argue that the statement at time 1:00 is incorrect. The equation always holds. Energy is a property of a system which has its own ontological dignity independently of any “conversion”. That equation expresses the fact that mass is indeed energy. Of course the energy of a system can flow form one form to another (e.g. kinetic to potential) but they all are on an equal footing and mass makes no exception.
@@FoxofWallstreetI'm not arguing about the equation, which is indeed correct for a system at rest. I'm pointing out that the way he explains it is wrong.
*A big problem with that video is that the "4th dimension" of what is WRONGLY called "time" is actually simply the conceptual "sequential line of 3D movie frames" (conceptual "frames" of spatial configuration) and THAT is why everything is said to be moving through that dimension at the same speed. Because obviously everything inside a frame of movie film is moving at the same speed through a movie projector.*
Because Albert E is as dope as two rappers.
Unfortunately that hyperbole, mc² is the same as mcc so he's only as good as 1½ rappers
Tf are these comments 💀
oh please, he's like a ti82 (ooo) at best
Epic rap battles of history!
@@misterdeedeedee Ooh
I used to be confused about this equation, but now that I have watched this video, I am even more confused 😅. Thanks!!
I upticked this comment because it made me laugh out loud literally - I'm not saying anything bad about the video; it actually helped me understand it a lot better, but I don't feel like I completely grok it yet.
yes, it opens up a mental can of worms 😂
This is why it took someone like Einstein to discover this. At the simplest level, just consider mass as a kind of frozen energy. 1gm of mass is roughly equal to about the energy of18KT of TNT. The mass of uranium that was actually converted to energy in the Hiroshima bomb was only about 1 gram; the weight of a paper clip. The rest of the bomb was just vaporized.
Me too.
I'll need to watch this a few more times to fully get it, but understanding that we're all moving in spacetime at c really clicked for me from this video. Thanks!
Yea it seems this wasn't as easy as to follow for viewers as I thought. I realize I have no idea how this video would come across without prior knowledge of some of the concepts I take for granted (eg; we are moving through spacetime at c). I probably need a focus group. I am hesitant to do this as it would make the creation process even longer. But it's likely where I will need to go if I want to improve.
@@ButWhyScinah your work is cool. If I can't fully comprehend something right now, it boosts my curiosity about this and gives motivation to know more
Also your videos are funny 😊
@@ButWhySci I love how your videos go to such depth, it always gives some new perspective on the subject. Being confused forces to think 😈
Thanks for admitting! Thanks for these videos!
@@ButWhySci This was pretty good to be honest, but might need a reshuffle to be clearer. Maybe talk to a friend that does UX and ask about the wireframing process and Lean UX methodologies. You'll be surprised how fast you can iterate complex ideas into something simple. I'll volunteer for the focus group though 😁
Next time someone tells me I'm lazy for sitting still I'll say "Actually, I'm moving through time at the speed of light, I'm being very energetic"
There is actually a reason why momentum is conserved. It's called Noether's theorem, which says, that for every symmetry of a system there is a quantity that is conserved. Momentum conservation corresponds to translational invariance.
Yes, but this kinda just shifts the question
@@HomeofLawboy To "Why there is a symmetry?"? That's a much more fundamental question. Maybe even outside of physics.
Is it not a cyclical argument? If there wasn't conservation of energy then there wouldn't be the symmetries to create/define. At least that's what I interpret. I could be wrong.
@@ButWhySci You are right in the sense, that for every conserved current there is a symmetry of a Lagrangian (so Noether's theorem is an equivalency). But symmetries seem to me more fundamental than conservation laws.
@@algolin Agreed. Another way to think about conservation of momentum is that it's a consequence of Newton's 3rd law. Granted, you can also argue that it's the other way around, i.e. that Newton's 3rd law is a consequence of conservation of momentum, but Newton's 3rd law (the law of equal & opposite reactions) seems more fundamental* to me than conservation of momentum.
*Sidenote: As a fun analogy to explain why I find Newton's 3rd law to be more fundamental than conservation of momentum, consider the game of chess. Bishops start the game either on a black square or on a white square, and they can only move diagonally. Since diagonally-touching squares on a chess board are always the same color, then a consequence of the bishop's "diagonal-movement law" is that they are bound to spend the whole game on squares that are the same color as the square they started on (e.g., a bishop that starts the game on a black square can only be on black squares throughout the game); this would be the resulting "bishop color conservation law", which I think we can all agree is less fundamental than the bishop's "diagonal-movement law".
yes I had this question for very long time. everyone seems talking E=MC² without even know what C does in that equation. so when ChatGPT came around, this is one of the first questions I asked to it. but it still can't satisfy my curiousity. WHY IS IT HAVE TO BE A SPEED OF LIGHT, AND WHY IS IT HAVE TO BE SQUARED? it's must not be just because it's a mumbo jumbo big numbers. this video in the other hand, satisfy my curiousity. thank you!
I love how the visuals in this video are so weird for no reason it's amazing
This has been a thorn in my side for 20 years.. never had the time to investigate it through all my physics courses at the university. Dynamics, statics, thermal etc…no explanation was ever attempted. It was just a fact, a baseline to move from. Thank you. That itch has finally been scratched and I can die in peace…🤣😇😎
This is profound. The way you have explained 4 variables (Including Ct) with a 3 axis graph is amazing . I have been watching Space Time explanations for a while now and I find this really intriguing. Thank You Sir !
My guy, I absolutely LOVE your channel. Your didatics are above what one would expect from a free youtube video and I wish I could donate to show my deep admiration for your work.
I'm a insatiable curious person and you help me keep the learning ball rolling so effortlesly by teaching with those funny animations, you've helped me understand so many complex topics that I had seen before but didn't fully grasped the concept until I saw the way you break down each pice of information. It helps me contextualize and fit everything togheter in my mind's puzzle about how the universe do it's thing and feeds the flames of my imagination.
I don't usually comment on videos but you deserve it, thank you so much! Hope the very best for you and everyone out there sharing knowledge for free. (Sorry for grammar mistakes, self english learner)
M=E/c² is how God created the universe . This is how physical matter that never existed was created by energy, same way nuclear reactors create non existent energy.
Intelligent design argument?
Logic science 101
Law of contradiction A=B impossible contradiction subjective illogical reasoning
Law of non-contradiction A isn't=to B objective absolutely true logic
A nothing caused evolved the contradiction effect of = B something
This is A=B impossible contradiction, nothing can never cause something, it can never be demonstrated nothing caused the effect of something, simple
In labs A isn't=to B is observed
A nothing caused the effect of = A nothing
B something caused the effect of = B something
Now,
A non intelligence caused evolved into the contradiction effect of = B intelligence
This is A=B impossible contradiction subjective illogical reasoning
Your intelligence came from an intelligent source logically which is absolute truth A isn't=to B objective absolutely true reason.
EVOLUTION is A=B impossible contradiction
A no brain organisms caused evolved into the HEINOUS CONTRADICTION EFFECT OF = B a brainiac organism
This is A=B impossible contradiction subjective illogical reasoning.
A prokaryotes no nucleus, mitochondria organelles, and never mitosis and meiosis in dna caused evolved into the HEINOUS CONTRADICTION EFFECT OF = B eukaryotes with dna magically making a nucleus, mitochondria organelles and mitosis and meiosis from nothing in prokaryote dna instruction.
A=B impossible contradiction subjective illogical reasoning
Cool eh...😎👍❤
Have to love simple logic science 101.
I just got to say... Your English is amazing!
@@helloelianamilenaagreed
I feel like this video was harder to follow, compared to your previous videos. Why do we move at constant speed through space time? Why does adding time dimension suddenly makes velocities not relative?
1- This is a principle of reality. It doesn't explain why, it just says it is, kind of like why light has no mass or why do particles have charge.
2- Basically, the theory says that to make the speed of light not relative to observers traveling at different speeds we need to modify time, since speed = d/t, we can modify "t" so that d/t invariably gives a constant value for the speed of light.
Our velocity through time and space being constant makes so that everything moving relative to us have a vector of c, so if they are moving in space(relative to you) they are slower in time, maintaning a constant speed in time and space
basically everything move at same constant speed C, nothing relative.
but a lot of objects in universe 'looks' move at lower speed,
time dimension is where the missing velocity goes.
if you 'stationary' all your velocity goes in time.
@@watzyh this is a nice way of seeing it.
hahahaha I love it, people actually notice that nothing makes sense to them, they literally see word salal, because it literally IS word salad
This also elegantly explains why you are moving slower through time as you are moving through space. When you move at the speed of light, time stops (for you). The combined speed of your movement through space and time is always C
It's elegant, but it kind of raises the question: if things seem to move slower in time as we move faster precisely because we observe everything to move at "c" through spacetime, and thus faster in space = slower in time to compensate... then how does the speed of light remain constant in all frames of reference? I know it comes out of Maxwell's equations, but from this physical framework of "constant spacetime speed", how does it fit?
@@IceMetalPunk Actually nobody knows what the speed of light is invariant in all reference frames. That's literally an assumption Einstein makes based on experimental evidence related, like you said, to Maxwell's equations, but that assumption isn't something that's mathematically proven directly from them. It's really basically just an "educated guess" that it's true. But once you make that assumption, all of Relativity is derived directly from that. And experimentally Relativity has held up extremely well as a mathematical model of the universe, so that lends a lot of experimental evidence to the speed of light being the same for all observers (because if it wasn't then Relativity wouldn't work.)
So the short answer is nobody actually knows why the speed of light is invariant, it's truly a mystery because it's pretty unintuitive to our everyday experience in the universe. But "numbers don't lie" and experimentally it really seems to be the case because, when you assume it's true, Relativity is the model that results and it's a fantastic predictor of real world physics.
The propagation of photons and also the continuous instantaneous EM fields produced by charges must depend upon charge location (mass location) for direction and intensity only. The speed of travel must be a constant function of the media (space) between all charges. This is good evidence that space is some kind of physical reality rather than nothing.
FINALLY. Countless times I've seen people explain it as if they've done so completely, either by dimensional analysis (simply calling c^2 a "conversion factor"), or some other hand-wavy way. At some point everyone just seems to say "that's sufficient for me!", but I have been unable to alleviate the itch that the first c is our motion through spacetime, and the second c is the real conversion of matter into energy -- for what is mass but locked up energy, and what is this energy in its purest form if not light?! Thank you
But he also explained that c^2 is a conversion factor. He just explains how/why.
The dimensional analysis method shows that it could work but it doesnt explain what makes it so different from the formula for kinetic energy (which is also in units of mass * velocity ^ 2).
This does actually explain a LOT of things
@@SolidSiren c^2 is simply a ‘conversion factor’ if you’re satisfied with that like a lot of explanations here on utube, but it’s also much more than that if you are smart and inquisitive. Dimensional analysis only truly makes sense when you understand what’s going on within those dimensions.
@@SolidSiren It stops being a simple conversion factor when you realise c² is 9e16 m²/s². The number is a conversion factor, but the units...
@@HenryLoenwind it's necessary
On a side note this is also where time dilation from motion comes from. (you brush on that with the fission reaction example) Your 4D speed is locked at c - always, so if your moving rapidly through spacial axis of the 4D spacetime there is "less room'" in that c value for movement through the temporal axis. (Technically ANY slight motion would come with the tiniest amount of time dilation, its just negligible until you reach reasonable fractions of the speed of light)
wow! this is the first time ive been able to understand the concept of relativistic mass. I've always heard the dumbed down explanation of "at high speeds, objects gain mass" and i thought that the energy of the object was being directly transformed into massive particles. Thanks for this video, guys. def my favorite one yet!
There's no such thing as "relativistic mass." Increasing velocity doesn't increase mass to compensate for the increase in energy; it instead increases momentum through space to counter the increase in momentum through time (aka energy) so that mass stays constant. Acceleration is little more than a rotation between time and space.
The reason there's confusion is because E = mc² is either incomplete or just _wrong._ It's missing an extra spatial momentum term on the left hand side, or E should be E₀ to explicitly indicate that there is no spatial momentum.
this is strange to not include the full equation: E^2=(MC^2)^2+PC^2 which covers the energy of a massive particle plus its momentum but in massless particles simplifies to E=PC and in massive particles not moving through space simplifies to E=MC^2
You just blew my mind, I have always known and accepted from relativity that time seems to tick slower the faster you go (time and speed relative to something else), but I have never once heard that its because we move through spacetime at C. In general I would have to agree that this video is a bit more harder to follow compared to your other videos, but those other videos are amazing!
Now compare the passage of time first when waiting for a bus and waiting to be executed by firing squad. Now suppose that the bus driver will be executed by firing squad the moment you board his bus.
My takeaway: everything movies at the same speed through spacetime (c).
So even though I’m walking and a car appears faster than me, we’re going through the same speed in spacetime - I.e the car moves slower in time than me. I.e the car experiences less time. A photon would experience no time because it’s movement is essentially only in space.
Phew! Lovely way of thinking of it. Though I did get a little lost with the momentum stuff. Doesn’t the whole equation have a momentum component? How does that fit in? E2=(mc2)2 + (pc)2
Wait, I know the answer for that. The full equation kann also be written as: E=y*m*c^2 (y being the Lorentz factor) and the full equation of p=y*m*c
In reply 1 the Lorentz factor tells how much the cars time has slowed. It also tells us how the car has shortened. I find it easier to realize that the car is made up of charges separated by EM fields. The fields can only go at the speed of light and no faster. If the charges in the car have a net velocity this must come out of the velocity which give the car atoms their length. Of course the changes are so very small.
Regarding the photon having "no time experience". It means that the photon is equivalent to an entity where no other spatial motion is possible because all its motion is taken up in the unidirectional forward c velocity. However, we know photons oscillate between field extremes over time. Therefore the field oscillation is not an actual distance oscillation but rather a physical field property oscillation which is not any part of movement as we know it. It is a perfect oscillation in some field or space fabric. Note photons can keep oscillating over billions of years.
This is a useful primer, I'll have to admit. It doesn't quite explain how C or C squared is a conversion factor but it moves me in that direction. No pun.
You have given me a gift of understanding some of the logic behind the spacetime construction. Thanks.
"The first is that momentum is conserved. I don't know why, no one knows why, just in the universe momentum is conserved."
I never really got the whole mystery over momentum being conserved. If you accept Galileo's Principle of Relativity then all reference frames are equivalent; there's no absolute reference frame. No Aether that we're all passing through. This is about as settled as science gets. So, Newton's 1st follows from that. Do nothing, nothing changes. If there's no force, then being at rest and constant motion are the same state. So of course momentum is conserved, how could it not be?
If, like me, you've ever modelled the solar system or anything in 3d for that matter then conserving momentum is what happens when you don't programme anything about momentum. You just let it run, things collide. Stop at any stage and tot up your momentum, and it's always the same. How could it not be? That's the default. Conserved means it doesn't change and it doesn't change because nothing is happening to change the total, just how it's divvied up between things.
Btw, your vector arrows above p and v are the cutest I've ever seen. They're damn adorable! Lovely video as always, great way to communicate the science. :)
momentum in SPACE is not absolute but it is in SPACE-TIME. Space time is the absolut reference frame
@@nicholasauwaerts2280 Spacetime is a field, not a frame. There is no absolute reference frame. If two spaceships pass in a void then it's equally valid that one frame could hold spaceship A stationary and B moving and another could hold the B stationary and A moving and they're equally valid because no experiment could ever favour either of the two statements.
It's very counterintuitive and overturned two millennia of thinking; Galileo isn't considered one of the greatest thinkers of all time for nothing.
@@davidmurphy563 In a way, couldn't a Field be called an aether? I can't seem to find a definition of Field that satisfies my mind. There is no 'empty' space, correct? How do they detect gravitational 'waves'? They say there is a ripple ( A wave attribute. Just a small wave, now that I think about it) in the FABRIC of space-time. What is the difference between a 'fabric' and a 'field' and an 'aether'?
@@noahway13 Well, we're all free to define any word to mean anything we please but usually "aether" is taken to mean an absolute reference frame (coordinate system) that we all exist in. This was famously shown in the Michelson-Morley experiment to be untrue; much to the astonishment of scientists at the time. A good part of Einstein's genius was accepting the experimental evidence.
It had been noticed that light behaved like a wave, so as all other waves propagate through a medium it was assumed there was an underlying medium to the universe that it travelled through.
They did the experiment and it doesn't exist.
If you're travelling at relativistic speeds on a spaceship but not accelerating, then you are at rest. It's perfectly valid to say you're sat still and the galaxies around you are moving, not you. Weird way to look at it but you can.
That doesn't mean there isn't a "fabric" of space with gravitational waves and all the rest (the field). Just that your perspective of it - drawing a coordinate system with you at the centre - is perfectly valid. As is every other.
I'm not saying there's no coordinate system, only that there isn't a preferred one.
Relativity is the explanation of how all these frames coexist simultaneously. It's the maths that makes them all gel together.
After Einstein being referred to as "a rando German" I've seen everything.
"No one knows why momentum is conserved" ... Emmy Noether enters the chat.
Finally I've found a general science explainer that does have that dry,authoritative boring tone. I shall watch your career with great interest
A lot was slotted into place with this one! I now know the mechanics behind time dilation! As movement through space approaches c, the movement through time slows down to compensate!
Well, that’s my mind blown. Welcome to the “Ned’s mind blowers” playlist!
Except that is wrong. Time is the product of observation, ie: a local effect. Different location while all existing now are only the 'present' of the observer. All else is the past, a measurable disparity. Motion changes relative distance and time. The apparent dilation is only relative to an external observer. The object moving does not experience weird effects, it still takes a year to go a year.
Like muons in upper atmosphere being measure at the surface of the earth after they disappeared in some tiny amount of tine
@@marcon33 The incoming muon can be better explained thus. Moving at .997 C means that every nano-second ( 10^-9) it moves about 1 foot. With this movement it becomes closer by just less than that same nano-second, and relative to the observer it becomes younger by that amount. Relative to the observer the muons loses 'age' as it approaches. This has the effect of it appearing to move faster than light (the D remains the same, while the relative T is smaller). The muon does not de-age, nor does it change its speed OR the distance travelled. The effect occurrs only at and WITH the observer, and exists because relative to that observer it is moving at nearly the "speed" of time; 0.997 C ( which we should call the speed of causality)
@@sonpopco-op9682 The moving object still observes the time portion of its movement vector as being at right angles to its space axis and being of length 1c. The resultant rotation of its coordinate system matches the "flattening" of space that's part of those dilation effects.
And no, it's not just an observation effect. When you bring an object (e.g. a clock) up to speed and then back to its starting point, it will have experienced less time than an object that stayed there. While those two objects could debate which one is moving and which one is stationary while moving at a constant speed, only one of them will have experienced acceleration and deceleration.
@@HenryLoenwind at right angles?
More math mumbo-jumbo. You are introducing an imaginary dimension and giving it magical properties.
Not allowed.
time is pure perception. Anything you measure on the object you have applied forces to will still be your observation.
We could see it also in a different way. As you say momentum is mass times velocity. Mass is then momentum divided by velocity. Which means that mass is point in space that has certain potential energy, this energy is then translated to kinetic by plain fram of reference of final possible speed distribution, and this plain of distribution is simply c squared. So any point in space that possess some potential energy can be converted into kinetic energy which is distributed through finial speed, speed of light plain. It doesn't matter which direction. Because it is in all directions. Also can be converted into kinetic energy with speed of light and then becomes photon. I hope you get the point of my perspective. This is why this equation connects classical physics to quantum mechanics, because is valid in both frame of reference.
Hearing your words over 1:45, it finally clicked why I never got it until now. E = M to the assless power times C squared. My attention span has always just given out once it realised the mass was assless and realising that was all it took to power through!
_...assless?_ you mean with _no ass?_
Velocity and rate of time are exchanged on a spectrum.
The greater the velocity, the slower time passes.
P1. If you could zero out your velocity to never move your x,y,z coordinate relative to space itself. Time would speed up!
One thing you forgot is that it is actually E with a subscript 0, meaning that it is the energy at rest not just any energy
Acollierastro?
Yeah, but he explains that mass only has meaning in the proper frame, so being at rest is implicit.
@@tenv yes
She's still right.
This video confuse the hell out of me
same. I shouldn't have watched so I still knew what E=mc² means.
We kinda DO know why momentum is conserved, it can be derived from the fact that the universe has translational symmetry. Emily Noether proved it.
Well, why does the universe have translational symmetry?
@@jayde4872 that's a more philosophical question, really. Basically, it all comes from the assumption that we aren't in any way special. Our place in the universe as a whole is no different than any other place, if we discard every bit of matter and everything and just sit in completely empty space.
And, fun fact, that's definitely not the case in general relativity where energy and momentum can only conserve locally because space-time itself is clearly not uniform.
That’s not really why.. that’s a theory built to explain natural phenomenon, but mathematical abstraction is not the reason why momentum is conserved. There is no “reason”, it just is because it is.
3:26 does this mean that light doesn't move on the time axis? Since all its speed is in the 3D space, then it doesn't have the ability to move forward in time. Unless I'm completely misunderstanding this
I don't respond to a lot of comments. But just wanted to say your intuition is exactly correct! Light does not experience time. Good job extrapolating information into a new idea. Those are the kind of questions that lead to good science.
1:42 e=m assless c^2. Leg day skippers in quantum shambles
This video is by far the most informative and absorbable of any I've seen so far! I can't say I fully understand it yet but I don't think most will understand it quickly unless you have a good background in physics.
1:15 I was under the impression that binding energy had mass, I could’ve sworn I heard somewhere that something like 98% of the mass of nucleons came from the quark’s binding energy and only a small percentage of the mass came from the higgs… field? mechanism? boson? I really don’t know enough about physics
that is right
that's true but there's some nuance here for the sake of mental sanity about what's massless and what's mass..ful? really, here we're considering binding energy to be "massless" just for the sake of saying it's energy
Binding energy is negative, so it subtracts from mass. The positive mass from quark binding is a whole nother thing.
This is a good question. Binding energy is a general term en.wikipedia.org/wiki/Binding_energy . It can refer to multiple forces. The binding energy you are referring to is that of the strong force inside a quark. You are correct in that, since it is confined, it has mass and it doesn't really change. Then there is the binding energy due to the strong nuclear force (different force than the strong force). When two nucleons approach, their produced pions can interact with the other nucleon, and to spare you the details, this interaction permits them to lower their energy state. Since they now have less energy they have less mass. So when you fuse two nucleons, you lose some mass to "binding energy". The same thing happens in regular chemistry when electrons bind with other atoms (In exothermic reactions). This is also called binding energy. And just like with fusion the new molecule has less mass. Though, the difference is miniscule compared to fusion.
If you are more curious I highly recommend my last video on fusion where I discuss binding energy in depth.
@@ButWhySci Thank you for the explanation! I think I will check out your other videos and see if they’ll help me understand this stuff better. I’ve often found that the terminology in particle physics can get pretty confusing.
BRILLIANT! In the 55 years since i first studied all this, I've never heard this particular facet explained so clearly. Subscribed, and I'll be back..
By far, one of the best explanations of E=MC^2 I have ever heard. Well done!
I had noticed before that e=mc2 was similar to the kinetic energy equation. Thanks for confirming the connection.
From college physics, I recall how e=mc2 falls out as corollary of the more general Lorentz transformation, but for some reason it took decades before it dawned on me that this was the "Lorentz" transformation, not the "Einstein" transformation. Because of Einstein's fame and probably because of the iconic, frizzy hair, we tend to forget how the foundations of special relativity date back earlier, to the 1800s. Einstein may have also taken some ideas without full attribution from the contemporary mathematician, Hilbert. But we will be fond of Einstein's genius, anyway, especially because of the frizzy hair.
Einstein's deification is our own making. He stood atop Maxwell's shoulders-
Um,,, frizzy hair is why you are an Einstein fan boy? 🐷🎶🎵
Google for incorrigible plagiarist.
They really are the same, when we accept the kinetic energy has to be a characteristic of the object.
I had the same question as you in high school. I could find the answer at university (although I was studying engineering). take a look at the answer I provided above.
Here's my take on the topic of this beautifully animated and beautifully spoken video.
I disagree. E = mc² (according to Einstein’s theory) always holds. You don't need to convert energy. I thought that for a long time. I think that the truth about this equation is, if the energy of an object increases so does its mass. If the mass decreases, so does the energy. The calculation for that is pretty straight forward. Off the top of my head, I can come up with one scenario, where actually all of a particle’s mass is “converted” into energy is, when a particle meets it antiparticle, e. g. an electron and a positron collide. A photon is created with the energy of 2*m_e *c², which is in the gamma (or X-Ray) spectrum. After that conversion E=mc² can no longer say something about the particles, because they don’t exist anymore. However, this formula tells us: you can put that photon’s energy into _something_ and that _something_ will gain the mass m=E/c². I imagine you could create two antiparticles again, out of thin air (I mean vacuum).
Now onto the second thing that drives me crazy: c_0 = 299,792,458 m/s, per definition of the meter. You can’t move through space and time at something meters per second. Distances in spacetime shouldn’t be measured in meters, rather a mix of meter and seconds. But I read in Wikipedia, that spacetime is not a four-dimensional Euclidian space, like I always thought it was (thank you @ButWhySci that I know that now!). The mathematical construct is to multiply a time delta by c_0, square it and subtract the square of a space distance, to get s², whatever that means in the real world.
Also, I don’t think Einstein’s professor Minkowski proved that we live in a four-dimensional reality. For as much as I know, general relativity disagrees with quantum physics and neither of them can prove the other wrong. But we know: one of them or both of them are wrong. From a theoretical standpoint: no physics theory can ever be proven, only disproven.
3:38: suddenly, _everything_ is relative: What it means for velocity through Minkowski spacetime to be constant is: you slow down if you move faster though space (that is you move slower in time) and you speed up if you decrease your velocity through space. Also note, you yourself will percept that change in time-velocity not own yourself, but on others who have a different velocity (though all have the same speed, that is magnitude of velocity). And these others will see your slow down, just like we can see experimentally that Muons only survive the journey from sun to earth, because their time is slower than ours’ (from our perspective).
4:04: But why, should the conservation of momentum also hold for velocity through spacetime?
6:58: But why??? You lost me there, actually.
After that, it seems to me, that there is much hand waving.
What do I take away from this video? First, that I don’t know a lot about relativity. Secondly, that the mathematics of relativity is really not suited for giving a fundamental understanding of E=mc². But I also take away a few more minutes thinking about relativity and learning about it, so THANK YOU!
PS: sorry for the puns
Yes I agree that using poison dagger with 90 points of critical damage is good but it is outshined by bloodlust one handed axe. Reasons why, first the axe does 20% reduction per .65 second of enemy's current HP. Second, it provides a trail to affected enemies and following the line of trail gives the player 75% speed boost. Third, continues strike grants 15 HP Regen and if you have an item that double or increases your attack speed you would easily recover more faster. And lastly the item is deadly when paired with other items that synergies with it well.
Having cape of kings, amulet of Ra, mercury's boots and genie's ring; you'd be OP.
We know why momentum is conserved, this is because our universe has translational symmetry. From observation, we see that the laws of nature remain unchanged if you move 1 meter away from where you are. From this observation alone arises logically, through Noether's theorem that there is an inviriant quantity associated with this symmetry and we call it momentum. It means that as long as translational symmetry is a good description of the actual world, momentum will be conserved.
There are two other important symmetries that have their own invariant :
Rotational symmetry -> conservation of angular momentum
Time symmetry -> conservation of energy
Beautiful, the nature of the video is very complex but you simplified is as much as you can.
I don't know if I am onto something or not but hear me out here:
Inertial or gravitational mass doesn't make sense in this 4D spacetime(where everything travels at a constant velocity,c).
Mass can be defined as the property of an object that resists acceleration(a = F/m).
However you CANNOT accelerate OR decelerate in this 4D spacetime as everything HAS to move at the speed of light in spacetime.
Your velocity through spacetime(combined) is a constant,c.
Since Space and time are on two different axes,you can represent your velocity as a combination of your velocity through time and your velocity through space.
Think of normal everyday acceleration(the one that u feel in your car going from 0 to 60) as the part of your velocity through time DECREASING and your velocity through space INCREASING.
This is the reason why time dilates at significant fractions of the speed of light,since velocity through time has to compensate for the increase in velocity through space.
This compensation is required to keep the object moving to spacetime(combined) at only one velocity,c.(Remember that all objects have to move through spacetime at velocity,C)
wait, does this also explain why they say "the faster something moves, the slower time is for it"? This is all really fascinating stuff!
No, all identical clocks tick away at the same rate, everywhere, and under all circumstances of the motion and orientation. This is fundamental to relativity (Local Position Invariance and Local Lorentz Invariance, respectively).
Yes, the faster you move through space, the slower you move through time. Though you always experience a second being a second since everything else moving at the same speed slows to the same rate of time as well. The effects of timedilation is seen relativistic to other's frames of reference. This also means that there is no speed limit of c in your own frame, c represents infinite speed for you, but since time slows down you would effectively never move faster than c in other's perspective, as their time appears to move faster in your perspective. To them you are approaching c but never quite getting there while they are growing older seeing you attempt to reach it. For you, you surpass c while seeing them grow older at a faster and faster pace. Of course you can never reach infinite speed in your perspective (as it is infinite), just as you can never reach c in their perspective.
@@pon1 That is completely and perfectly anti-relativistic. Correctly, the faster a traveler moves through the observer's coordinates the slower they move through the observer world-time. The "c" in relativity is the norm of the vector tangent to a world-line [g(U,U)=c^2], which is why inertial observers measure the local vacuum speed of light to be "c" (light is restricted to the null structure of the gravitational field). It is fundamental to relativity that all identical clocks tick away at the same rate, everywhere, and under all circumstances of motion and orientation (Local Position Invariance, Local Lorentz Invariance, respective].
@@kylelochlann5053 I just said that. What did I say that goes against what you said? I just said it in language the people can understand instead of your jibberish.
@@pon1 The "gibberish" is called "relativity" which you patently disbelieve or don't understand.
I love the little touch of the digitized Mozart's Requiem at the start. It nicely represents the true DREAD emerging from the philosophical implications of the equation in question.
You don't know why momentum is conserved? Emmy Nöther would like a word with you
If I had 10 chances to reexplain this to some hostile space alien's to save earth, we'd all be dead.
This is really well presented and explained, thank you!
THIS IS THE EXACT VIDEO I NEEDED! I'VE BEEN SEARCHING FOR AN ANSWER FOR YEARS NOW! THANK YOU THANK YOU THANK YOU
Physics just great. It's so impressive to fully grasp all the systematic connections between literally anything.
As my professor once said: Physics is not math, it's the language of the universe.
And I truly believe that we are just getting started to explain our universe and with that EVERYTHING:
Side note: I am writing a physics exam in about 11 hours so please accept my excitement and enormous respect LOL
So far the best intuitive explanation I have encountered.
No, this is a tautology. You're not explaining "why" but restating "what" again, and in obfuscated verbosity. What and why are 2 different things and to conflate them is bad science. And when in the hell did "C" ( @ 3:56 ) become "its speed through space" and cease being (specifically) "the speed of light"?!
Beautifully broken down. This is why i personally keep harping upon the value with necessity of such fantastic explanative Presentations, given the distinct implications that Civilization now invariably requires, so as to best further-progress, whereupon our Species would ultimately accomplish those Ends that inevitably make our Existence, of substantial impact.
Why E=MC^2? Why not?
I remember asking a teacher in middle school, high school, as well as college. Why isn’t it e=mc to the power of 1.6 or 1.8) basically why do things have to be squared or cubed, ect. The simplest way to explain it, is it’s easier to calculate it with the first integer containing the decimal rather than the power
i think i see why time dilates or length contracts sorta at light speeds now. but err yea this one aint as easy as some of your other ones
Everything needs to move through spacetime at the speed of light.
If you're motionless in SPACE, then you're moving through TIME at the speed of light.
If you're moving at the speed of light through SPACE (like a photon), then you cannot be moving through TIME.
Thus, moving somewhere between the two speeds would mean that you're moving through time slower than if you were motionless (time dilation)
@@Squid2214 Moving at the speed of like like a photon is more like moving at an equal rate through space and time. Actually moving entirely through space with 0 momentum through time would likely be a tachyon and would require imaginary mass.
@@angeldude101 Photons do indeed experience zero time. Since neutrinos can change state, that means they have to experience time. That's how we were able to predict that they don't quite travel at the speed of light like originally thought. Photons do not change state.
Another way to think about it is length contraction. The faster you go in space, the shorter your travel distance seems to be. If you go the speed of light, your travel distance shrinks to 0 exponentially (which means it takes you no time at all to cross the entire universe, at least in your frame of reference)
Nice explanation. When i was learning this i was told squared part means “in all directions” in space. Nice to learn a new perspective on this. Thanks
You are excellent at NOT EXPLAINING anything.
Like 99% of utubers nowadays.
Nice explanation
Nice voice too 😉
is this why photons do not experience time, because all of their motion is only in space?
Yes. You could also phrase it as, “the energy of photons is exclusively space-like.”
Albert Einstein was thinking about the ancient installers of Floor Tiles. The idea was a unit of measure being square in itself, then how to determine how many tiles you need to cover any floor with the tiles. So taking a measure squared, accounts for how they figured out how many floor tiles were needed to cover the floor. Length and Width, to fill it will equal units of measure. say you have tiles that are one square foot in size. So then you measure the room, length and width and calculate how many tiles you need to cover the floor. Albert Einstein said that great discoveries often begin as just childish ideas that grow over time to be brilliant.
7:54 bro deleted her head 😅
Thanks for this!
Now all I need is to wiggle this into a conversation at the pub amd explain it before I forget what I was talking about.
He does NOT lead you thru this.
I liked your animated presentation, very nifty! The fundamental dimensions, M,L,T must be equivalent on both sides of the equation so that demands that the energy on the left hand side dimensions must = the dimensions of the right hand side. The way that that is achieved is "C" is squared!
0:16 relatable
It has to be squared to preserve the dimensional integrity of the units of energy.
Yeah maybe I'm dumb but this video could have been a lot clearer.
Hmm... Well, what he said was absolutely spot on - this was 100% absolutely accurate science and from an interesting perspective to boot - but I'll grant there was a lot of prior knowledge assumed...
For example, he referred to the "dot product" at one point (without actually saying the term) and without explaining what the term "vector" or a scalar quality is. Much less explaining what the operation is or why it was relevant; he just said it's multiplying (which is true). You don't need to be a genius to learn this, but it needs study for sure. Nobody will guess it from this. 0% dumb for not.
Yeah, I think on balance your comment is fair, he assumed a knowledge of maths which most people have never been remotely taught. If you do know it then you're nodding along but gaining the necessary grounding is many videos of information.
Yes, the groundwork was lacking. You're certainly not dumb for not following.
The problem is that with any layperson's explanation you kinda have handwave things or you're just offering an academic course.
It's hard balance to strike in a short video format with grand aspirations.
This is normal sleight of hand. He couldn't provide it if he tried as he is a makeup of irrationally contrived abstract concepts through parroting as a youth that was provided propaganda.
@@davidmurphy563 I pretty much agree with everything you said. Thanks for the measure of validation.
@@lifeunderthemic Nothing of what was said was irrational or sleight of hand. It was accurate science which is based on a mountain of evidence. The satnav on your phone uses relativity calculations to work; this has practical everyday use.
The criticism is that this video boiled many 1 hour videos into 8 mins. Not that anything said wasn't entirely accurate; it was.
@davidmurphy563 you could have just said yeah you're dumb lmao
Damn what is that amazing tune playing under the video and in the outro? I wanna listen to the whole thing! Love the melody🥰
I dont get it :(😊
we are not moving at all, wherever you are in space you are in the centre of space and everything is moving around you.
I didn't understand a thing.
Don't worry there are a lot of them
Einstein is german
maybe because you didn't attempt to?
This is easy.
C^2 = E/M the energy in/as matter is distributed over space and time. and we know that space and time (length) is different from place to space (relativity).
So you can consider space and time to be a 'volume of space' c^2 is the 'volume of space'.
This gradient in the length of space and time is what we feel as gravity.
Space and time get shorter in lower gravity (the second is shorter on the ISS and longer at the center of the earth), the speed of light is constant, so the length of space must also vary by the same amount.
E = MC^2
M = E/C^2
C^2 = E/M
I didn't get it.
The best explication
Bc energy is SI is equal to j which is equal to m*v²
And c is measure same as v(l÷t) so we need to square to get the same measurements
So if I just sit still and dont move, i dont move through space, but i move through time at the velocity c. Thats why a particle that moves at the speed c through space, doesnt experience any time, right ?
even if you sit still, you are still moving. The earth moves, the solar system move and the whole Mily Way moves. Nothing is still in the universe.
Wait, so is the fact that we are always going C speed throughout space time the reason for why when you go travel really close to the speed of light you go through time slower? I’m thinking of this as a vector with a constant length: the bigger the x component (space), the smaller the y component (time). Is this wrong?
So does that mean that if light is forced to go faster than the speed of light, it gets twisted up into a pretzel called mass?
It sounds right to me👍. If government taxes people more than 100% people will twist up into a stationary mass.😊
I’ve concluded that one has to have a certain level of intellect to understand this stuff and I just don’t have it. So I’m gonna peace out and go back to watching puppy videos.
Sure you do. It's just the way it is explained. You'd need to study 📖 a little before it sticks. 🤓
6:59 does this have anything to do with scalar light? I’ve heard of it existing but don’t know much about it. Apparently has the potential to create instantaneous communication devices or directed energy weapons if used the wrong way
00:51, it is due to translational symmetry, right?
Equals MC squared, is the exhaust for cold energy-abbreviated emememEi< E equals MC squared. With only 6° of separation
It's clear as mud, but it covers the ground.
For anyone confused, I remember a video where they explained speed as an arrow with constant length (c) and variable angle (space-time trade-off). There's a horizontal space-speed arrow, and a vertical time-speed arrow. The length of both straight arrows depends on where the angled arrow points. Thereby explaining why nothing can go faster than c (in time or space), and showing how there's no such thing as "absolute speed", as all speeds are just fractions of the speed of causality (c)
Dimenisonal analysis .
So simple.
This channel really deserves to be bigger
7:30 the revelation i got from that was that motionless things experience time as 100% (=c) but the more motion u have (since c is a constant) the smaller the portion of this velocity in direction of the t-axis, hence things in motion experience time to a lesser degree. like a clock in space would tick faster than on earth. my (anthropomorphic) explanation was always, gravity pulls not only mass but it also pulls on time forcing it to slow down, but since gravity=acceleration and thats in turn velocity, both metaphers are the same, just seeing the coin from the other side.
Could there be a geometrical aspect to Einstein’s equation, E=MC² energy equals mass times the speed of light squared? The C squared can represent light radiating out in every direction forming a sphere 4πr². We have square the radius r² of the sphere because the process is relative to the spherical surface. The interior of the sphere is naturally three-dimensional forming the three dimensions of our everyday life. If we place the Lorentz contraction ˠ of space and time ∆E ∆t ≥ h/2π between the energy ∆E and mass ∆M we link time within the process. The surface of the sphere can form a boundary condition or manifold for the process of energy exchange that forms our ever-changing world. We measure this process as a ‘period of time’ with the atoms of the periodic table being standing waves in time. The spontaneous absorption and emission of light photon ∆E=hf energy is forming potential photon energy into the kinetic energy of electrons. Kinetic Eₖ=½mv² energy is the energy of what is actually happening. An uncertain ∆×∆pᵪ≥h/4π probabilistic future is continuously coming into existence with the exchange of photon energy.
Am I correct too say?
If one could sit motionless at the singularity at the point where big bang started then time is moving away from me at the speed of light?
It feels eerie when you understand this and start thinking about all the ways we divide energy into many other forms and its essentially always about just adding package that slows it down. And in our universe how much slower is always referred by time and distance e.g. spacetime. 🤯
E=MC2 is Energy=Mass Converted Twice. I wrote the equation. It is a space equation that is only relevent to space travel. It is about converting hydrogen and oxygen into water, then ice in space for thrust. While bending space infront of the spaceship you can ride the bent wave using hydrogen and water as the thrust to push you onto the wave.
the best visualisation of 4 dimensional world I've ever seen. Great video btw. Everything well explained
Lol will need to rewatch this, I did not know about the relation between space-time and this equation, like I know all the other concepts, but this was the missing link and it just makes sense. Thank you for this.
My understanding when I first questioned it was because energy spreads in an area (X^2) and E refers to ALL the energy not just the single linear Energy you get when calculating Force or Acceleration
2:20 Ooosie... Those Moonfolk are seein' that Earth's going the wrong way 'round.
Momentum is conserved and we do know why. it's a consequence of a property of space called translational symmetry
indeed, one of the most brilliant discoveries in math and science
video: E=P*C
my brain:Electronics=(my)pc
In the concept of elementary particle as a quantum of the closed persistent energy flux of the electromagnetic oscillation,
the mass m[kg] is defined by
m=(htrans/c).(1/r)
r[m] is the reduced Compton wavelength for the mass m[kg].
Implication is that
htrans={m.r.c} , [kg.
m^2.s^-1]
The energy E[J] is defined by
htrans.omega=
htrans.(c/r) =
{m.r.c}.(c/r) =
m.c^2
In general, to any large mass, there can be attributed the "virtual" ring with radius r, keeping the relation for mass still in play.
E.g. for m= 1[kg]
1[kg] ~ (htrans/c).
(1/{3.51767x10^-43 [m] } )
because
(htrans/c)
is the "momentum of mass" in [kg.m]
And, consequently for any non zero mass
m.c^2 = E(energy) in [J].
However, not vice versa in general.
The straight(!) junck of the energy flux of the photon, with "infinite" radius r(photon), gives (1/r(photon) ) tending to zero value (of energy flux bending) (!).
The zero mass for photon(!). Inspite that the photon has non zero energy in Joule.
E(energy)/c^2 # m[kg]
for photon.
See "World of the rings" on ResearchGate.
that 4d/spacetime visualization really helped!
I would argue that the statement at time 1:00 is incorrect. The equation always holds. Energy is a property of a system which has its own ontological dignity independently of any “conversion”. That equation expresses the fact that mass is indeed energy. Of course the energy of a system can flow form one form to another (e.g. kinetic to potential) but they all are on an equal footing and mass makes no exception.
Wrong. True equation of E=m*c^2:
E=y*m*c^2
@@FoxofWallstreetI'm not arguing about the equation, which is indeed correct for a system at rest. I'm pointing out that the way he explains it is wrong.
@@Pietro_Borchia Oh yeah, that might be possible, I mean he is also talking about relativistic mass and stuff around this concept
*A big problem with that video is that the "4th dimension" of what is WRONGLY called "time" is actually simply the conceptual "sequential line of 3D movie frames" (conceptual "frames" of spatial configuration) and THAT is why everything is said to be moving through that dimension at the same speed. Because obviously everything inside a frame of movie film is moving at the same speed through a movie projector.*