Happy 95th Anniversary, Relativity

StartsWithABang (3485481) writes "It's hard to believe, but there are people alive today who remember a world where Newtonian gravity was the accepted theory of gravitation governing our Universe. 95 years ago today, the 1919 solar eclipse provided the data that would provide the test of the three key options for how light would respond to the presence of a gravitational field: would it not bend at all? Would it bend according to Newton's predictions if you took the "mass" of a photon to be E/c^2? Or would it bend according to the predictions of Einstein's wacky new idea? Celebrate the 95th anniversary of relativity's confirmation by reliving the story."

95 years but

[rossdee]

its less than that time if it was travelling at significant speed

Re:95 years but

[Tablizer]

So, do we have to kill half a cat as a sacrifice at anniversaries? Or is that just at the quantum party?

Re:95 years but

Eh, it's all relative.

Re:95 years but

[buchner.johannes]

Eh, it's all relative.

Except for the speed of light. That is absolute.

Re:95 years but

[Ol+Olsoc]

Eh, it's all relative.

Except for the speed of light. That is absolute.

Nope. Depends on the medium and it's velocity factor. http://en.wikipedia.org/wiki/V...

And no, creationists, that does not prove your whack-a-doodle variable speed of light conjecture.

Re:95 years but

[barlevg]

I realize you were making a joke based on a perception common in popular culture, but the truth is that the Schrodinger's Cat paradox has a simple resolution: the cat *cannot* be both alive and dead because the detector (which detects whether the decay has occurred and which triggers the release of the poison if the decay occurred) collapses the wave function of the particle. There's no such thing as a passive detector. So while a subatomic particle could indeed exist in a superposition of "decayed" vs. "not decayed," the second you go about asking the particle whether it's decayed (that is, when you set up the detector), the wave function collapses, and no superposition is possible.

Re:95 years but

[barlevg]

The photons themselves are still traveling at c. What's "slowing them down" is that they're being absorbed and re-emitted by the atoms in the medium. The speed of light is absolute.

Re:95 years but

[Eunuchswear]

Well, it depends.

If you go many-worlds then the cat is both alive and dead - but in the world were you are, yes, it's either alive or dead.

Re:95 years but

[barlevg]

Well sure, but in many-worlds, it's also alive because you never put it in the box*, and it's also a dog, and it also passed straight through the walls of the box and into the Earth's molten core.

*Not to say that conscious decisions are directly quantum events, but quantum mechanics causes thermal fluctuations, and the brain is likely chaotic enough that the right fluctuation at the right time could create a different decision. The odds of all this happening are infinitesimal, but according to many-worlds, as long as it was nonzero, it must have still happened in some universe.

Re:95 years but

[Ol+Olsoc]

The photons themselves are still traveling at c. What's "slowing them down" is that they're being absorbed and re-emitted by the atoms in the medium. The speed of light is absolute.

Cherenkov radiation

Re:95 years but

[barlevg]

Exactly my point. The light in Cherenkov radiation isn't travelling faster than c, it's just going faster than the "c" for that medium.

Re:95 years but

Thanks, but I don't feel a day over 1.
- Relativity

Re:95 years but

Except that is not how it works in quantum mechanics with a quantum system. There are operations you can perform on a system in superposition that would not work if it randomly chose a state before you started. Things like Bell's inequality mean you either have to accept it is in more than one state at a time, or there is some sort of determinism to the universe that means the state chosen from the start reflects measurements and operations you haven't made yet to the system.

Re:95 years but

Not for electromagnetic radiation involving wavelengths larger than components of the system (so stuff lower energy than x-rays for atomic structures, possibly including higher energy stuff in situations with free or shared electrons). In terms of electromagnetic fields, the change in speed is due to induced currents and polarizations in a material canceling out part of the electromagnetic fields in the radiation. The net effect is a delay in the propagation of the fields, so the waves travel slower than c. This still applies if interpreting light as a photon instead of a classical wave.

Re:95 years but

[drinkypoo]

Well sure, but in many-worlds, it's also alive because you never put it in the box*, and it's also a dog, and it also passed straight through the walls of the box and into the Earth's molten core.

Nah, that's infinite-worlds.

Re:95 years but

[Richy_T]

It's not known what counts as an "observer". This is a major problem with the Copenhagen interpretation (not that other interpretations don't have their own issues).

Re:95 years but

Or instead of being philosophical about it, they could maybe accept that just because there's no way to confirm a particle's state doesn't mean that it exists in all states simultaneously. After all, a particle's state can be predicted first and confirmed later, something that would be impossible if it existed in all states at the same time.

To use Schrodinger's Cat again, just because *you* don't know whether the cat is alive or dead doesn't mean the *cat* doesn't know whether it itself is alive or dead.

Re:95 years but

[nitehawk214]

Yes but you and the cat are only in one of those worlds. There is no such thing as "the same cat in a different world". It is a different cat that branched off at some time in the past. Therefore no matter which interpretation you use, the cat is either alive or dead, full stop.

Re:95 years but

[doug141]

At what physical size within an isolated system is the detector (be it a photon, an atom, a molecule, a geiger counter, a cat, or an experimenter opening a box) no longer allowed by physical laws be in a quantum superposition?

Re:95 years but

Atoms only absorb certain wavelengths, and they can hold it a while before re-emitting, which they do in a random direction, so that's wrong.

Re:95 years but

[barlevg]

There's no fixed limit--the double-slit experiment has been run on gold particles, I know, I think I heard of it even being performed on DNA molecules. It's not about the size, it's about the act of measurement. However, I've gotten responses in the other place I posted this comment that are basically along the lines of, "there's a certain class of detectors that will entangle with the system rather than collapse it." If that's the case, then the Schrodinger's Cat problem becomes a practical one (it's impossible to truly isolate the cat from the outside world) than the fundamental one I've described.

Re:95 years but

but the truth is that the Schrodinger's Cat paradox has a simple resolution: the cat *cannot* be both alive and dead because the detector (which detects whether the decay has occurred and which triggers the release of the poison if the decay occurred) collapses the wave function of the particle.

So the "simple resolution" is to observe it? I thought the paradox was that, prior to observation, it is both alive and dead.

Re:95 years but

[rogoshen1]

are you implying that cats have souls, and that there is in fact a cafterlife? (cat+afterlife, sorry.)

Re:95 years but

[doug141]

My impression of the thought experiment was that it was actually asking the listener to consider questions like "if the universe is isolated, are we in superposition right now?" and "what is the relationship between consciousness and superposition?" At any rate, it has been fascinating to watch the moderation of your "simple resolution" post bounce between extremes.

Re:95 years but

[barlevg]

See, that's the danger, and why I made my original comment in the first place: Schrodinger's cat (and Quantum Mechanics as a whole) has absolutely nothing to do with consciousness. Here's a great piece explaining in more detail.

Re:95 years but

This is Slashdot, so no matter what speed you are travelling you will observe me not RTA.

Re:95 years but

Or instead of being philosophical about it, they could maybe accept that just because there's no way to confirm a particle's state doesn't mean that it exists in all states simultaneously.

Except this doesn't work in more complicated experiments where you manipulate the particle while it is in a superposition. If the particle was in a particular state you would get different results than if superposition holds, assuming the universe didn't a priori determine your actions before the superposition would have been created.

Re:95 years but

[doug141]

Bell's inequality proved quantum states are not determined before observation.

Re:95 years but

[the_other_chewey]

Exactly my point. The light in Cherenkov radiation isn't travelling faster than c, it's just going faster than the "c" for that medium.

The particle triggering the radiation is, the Cherenkov photons themselves are not -
that's what makes those nice Mach-like Cherenkov cones.

Re:95 years but

[ByteSlicer]

There's no such thing as a passive detector.

Sure there is. There is nothing special about a detector. If you can put a whole cat (=a bunch of atoms) in a superposition of quantum states, you can also include the detector (=a bunch of atoms) in that superposition.

It only works if the inside of the box (including the detector) is isolated from the rest of the universe. Then there is a superposition of 2 states: (1) the radioisotope didn't decay, the detector detected nothing, the cat is alive; and (2) the radioisotope decayed, the detector detected the emitted particle and released the neurotoxin, the cat died.

Once you break isolation (i.e. coherence), the rest of the universe entangles (at random) with one of these states, and the other state "collapses".

The big question is: what happens with the collapsed state? Was it absorbed in the other state? Did it entangle with a parallel universe? Did it become disconnected from reality?

Re:95 years but

[mattack2]

Well, I surely can detect that you posted the same response both in this thread and the "Scientists Find Method To Reliably Teleport Data" one.

Re:95 years but

Quantum entanglement is not subject to Bell's inequality and shows a determined quantum state before observation.

Re:95 years but

No, I'm implying that cats have *consciousness*. Whether there is a caterlife instead of a cafterlife is a different matter.

Re:95 years but

Except this doesn't work in more complicated experiments where you manipulate the particle while it is in a superposition.

Even between two observations, parts of the particle's state can change unless interference forces it to remain static. An unpredictably changing state is not the same as superposition, and observation only catches a particle's state at the particular moment of observation. That's why I say that it's philosophical. Merely measuring a superposition immediately annihilates the superposition so that it can't be measured, but the particle then regains superposition when it's not being observed (meaning that a superposition can't be directly proven to be a valid state because proving a superposition requires it to exist at the time of direct observation, which it cannot possibly satisfy). You can, however, measure a changing state over time, even if the results might become biased by constant observation.

If the particle was in a particular state you would get different results than if superposition holds assuming the universe didn't a priori determine your actions before the superposition would have been created.

Considering that your actions from one moment to the next are a continuation of previous actions, your current actions at this current moment are indeed a priori determined by your actions of the previous moment. A particle could not exist if its current state was not a priori determined by a previous state that the observer could not have known about. Without a priori determination, a particle would blink in and out of existence, appearing instantly (possibly) in a new position and (possibly) in a new state, for no reason at all.

Re: 95 years but

Uhm, no.

Re:95 years but

but the particle then regains superposition when it's not being observed

No, a particle only enters a superposition via certain interactions. Other unobserved particles are not in a superposition.

(meaning that a superposition can't be directly proven to be a valid state because proving a superposition requires it to exist at the time of direct observation, which it cannot possibly satisfy,

Superposition can exist and remain during certain types of operations depending on what type of state you have and what you do to it. You can show that if the particle was in a particular,even random or unknown non-superposed state, you would get different results when making measurements after such an interaction.

Even between two observations, parts of the particle's state can change unless interference forces it to remain static.

This is fundamentally backwards, in that a particle will remain in particular states unless interfered with. You can put the particle into single particular states (eigenstates), and it will remain there unchanged until something interacts with it, and this can be directly measured as long as your measurement is the first interaction it deals with. Other types of states have a clear transition or oscillation they go through, and it doesn't randomly jump around. You can get a clear pattern in the states as predicted quantitatively by quantum mechanics, and it is something that can now easily setup as an undergraduate lab experiment done by students.

A particle could not exist if its current state was not a priori determined by a previous state that the observer could not have known about. Without a priori determination, a particle would blink in and out of existence, appearing instantly (possibly) in a new position and (possibly) in a new state, for no reason at all.

The alternative to superposition is not just the idea things had to have a previous state to develop into a later one, but a very particular and strong type of determinism that means various types of correlations will always happen. This includes being able to setup an experiment, and have no further interaction until making a measurement that you can decide to change or alternate after the original setup, and then find that the states setup in the original experiment have to reflect any later changes and decisions regarding measurements before those decisions are made. It amounts to the universe being pre-determined in an exact way to always look like the laws of physics are different than they are. While a possible explanation and outcome that can't be distinguished, it is analogous saying dinosaur bones were created by God to look exactly like they've been there for millions of years, another possibility that would be impossible to distinguish with any amount of observation.

But before discussing what is and isn't philosophical, etc., it would help to learn what quantum mechanics actually says about states and their evolution instead of creating strawmen, even if unintentionally.

Re:95 years but

No, a particle only enters a superposition via certain interactions. Other unobserved particles are not in a superposition.

I forgot to add the additional point that superposition and a single state are also not mutually exclusive. There are specific states that can be expressed as a superposition of other states. A linear polarization state can be expressed as a superposition of circular polarization, while a circular polarization state can be expressed as a superposition of linear polarization states. A linear state can also be expressed as a superposition of orthogonal linear polarizations. None of this means the state is randomly changing or evolving, as can be directly verified by measurement., But if you performed various operations on the polarization like projecting onto a different linear polarization or passing through a circular polarization filter, and then reverse the operation, you can do things like get your original unchanging state back, whereas if the same operations used for measurements produce a random, but predictable distribution of measurements. You can show without the measurement that no random changes are being made to the state.

Re:95 years but

[barlevg]

This is wrong. Before one "collapses" a particle's state, it actually *does* exist in all states simultaneously. See the double-slit experiment.

Simultaneity is in the eye of the beholder.

[mpoulton]

95 years of confusing the heck out of second-semester physics students! You didn't think you signed up for a calculus-based philosophy class with numerical answers to epistemological questions...

Re:Simultaneity is in the eye of the beholder.

[barlevg]

The truth is, relativity doesn't have to be as confusing as it's usually made out to be. The most accessible explanation I've found for time dilation came from Brian Greene's The Elegant Universe :

Suppose you have a race car that can only go 100 m/s, no faster, no slower. Suppose it's racing down a very wide track that's 1km in length . Depending on the angle at which the car travels, it may cross the finish line in 10 seconds, 20, 50 or however long, just no less than 10 seconds. So similarly, we can think of our journey through the universe as happening along a "time" direction as well as three "space" directions: the faster we travel through space, necessarily the slower we travel through time, but no matter what, we're travelling at c.

The math even works out, in terms of c=sqrt(v_x^2+v_t^2) where "v_t" (your velocity through time) is c*dtau/dt.

This analogy obviously only gets you so far, and the real "wow" of relativity comes from the concepts of simultaneity (I wish more SF authors realized that FTL and time travel are the same friggin' thing), but especially for non-majors this is a great way to get one's foot in the door and begin to understand what is a pretty alien concept.

Re:Simultaneity is in the eye of the beholder.

[Jason+Levine]

I never found relativity to be that hard or confusing. Now quantum mechanics on the other hand.... *shudders*

Re:Simultaneity is in the eye of the beholder.

[TopherC]

Funny, I read that book (which is excellent) but don't remember that analogy. But I think you're talking about special relativity, not general relativity. The best GR explanation I've seen is an article Lost in Hyperbolia. For me that explanation worked perfectly.

Now I remember reading in various places that the solar eclipse data on GR was not actually conclusive. Bad science. The earlier work Einstein did that explained the precession of mercury's orbit was actually the first confirmation of GR. Also, of course, confirmation is not a word that is ever used correctly in science. The precession of mercury's orbit disproved Newtonian gravity but failed to disprove GR. The bending of starlight by the Sun would have been an even more impressive failure-to-disprove GR if the data were actually conclusive.

Re:Simultaneity is in the eye of the beholder.

[barlevg]

Indeed. Parent was talking about Special (simultaneity).

Re: Mercury's precession, I'm still a believer in Vulcan.

Re:Simultaneity is in the eye of the beholder.

[TopherC]

Oh, what I do remember from Bairn Greene's The Elegant Universe was his analogy for Bell's Inequality. Looks like that has been put up on Wikipedia.

Re:Simultaneity is in the eye of the beholder.

[TopherC]

Re: Mercury's precession, I'm still a believer in Vulcan.

Yeah, even the term "disproves" is not exactly correct. Newtonian gravity has a very hard time explaining Mercury's precession and is completely untenable with today's observational evidence. General relativity explains Mercury's orbit without having to invent new invisible planets & stuff. And today General relativity is still doing spectacularly well with many careful neutron star observations as well as experiments closer to home, like Gravity Probe B's measurements of frame dragging and more.

Re:Simultaneity is in the eye of the beholder.

I've little in the way of formal education, but a passion for math and science. I highly recommend Gravitation by Misner, Thorne, and Wheeler. It's often cited as being dense or difficult, but I've found no more lucid introduction to GR for someone geometrically inclined.

Re:Simultaneity is in the eye of the beholder.

(I wish more SF authors realized that FTL and time travel are the same friggin' thing)

They're only the same thing if your spacetime geometry permits timelike curves to be closed. If all timelike curves must be open (that is, traveling FTL means you can't go home again), then FTL doesn't equal time travel.

It is unlikely that we live in a universe where this is the case.

95?

[Tablizer]

Meh, anniversaries are relative.

I don't believe in relativity

[Rosco+P.+Coltrane]

It's nowhere to be found in Genesis.

Re:I don't believe in relativity

It's nowhere to be found in Genesis.

So now that we have had the official American view on the matter, any other nationalities care to chime in?

Re:I don't believe in relativity

It's nowhere to be found in Genesis.

Who gives a shit wether it is or it isn't in the Genesis ?
Oh right, American science deniers. Ok, carry on.

Re:I don't believe in relativity

[The+Rizz]

Not sure what a British rock group has to do with a German/Swiss/American physicist's work, but whatever...

Re: I don't believe in relativity

It is found in several places in Qur'an if that's the comment that you're after

Re:I don't believe in relativity

It can be found in several places in the Qur'an, if that's the comment that you're after

Re:I don't believe in relativity

It's nowhere to be found in Genesis.

Sure it is! How do you think Methuselah lived for 969 years? Time dilation, dude.

Re:I don't believe in relativity

Best comment!!!

Re:I don't believe in relativity

[TapeCutter]

Einstein was a (mono-cranium) Tasmanian, his theory of roll and rock has been well documented. The drummer in Genesis had been accused of robbing a train and fled the UK, he went to the most remote place on the planet he could think of (Oz) and witnessed Einstein giving a lecture about the theory of "roll and rock. You will notice 'Bert had, by this time, renamed his theory to the more familiar "rock and roll" which is what Ronald Biggs heard and took with him to Genesis - (BTW, that black haired beauty with big brown eyes in the lecture video is a young Marie Curie).

Re:I don't believe in relativity

[vasilevich]

Genesis doesn't tell me how many times I should breathe in a minute, correct to 10 decimal places.

Re:I don't believe in relativity

Neither are computers

Re:I don't believe in relativity

Often found in multiple places in the Qur'an, if that's what you want to read.

Re:I don't believe in relativity

[Eunuchswear]

Don't tell the fundies that, maybe they'd stop breathing.

Uh, hang on a minute, let me rephrase that... ... Please tell the fundies that, with luck they'll stop breathing.

Re:I don't believe in relativity

[RabidReindeer]

Nobody ever talks about Methusaleh's twin, Rodney Shortlife.

Re:I don't believe in relativity

Better not tell that to your wife.

Re:I don't believe in relativity

Really??? Never pass up an opportunity to spew your anti-religion beliefs? At least this time you are correct that the theory of relativity is not documented in Genesis. Usually you folks spew highly twisted and incredibly inaccurate viewpoints when you attack religion.

Re:I don't believe in relativity

[Jason+Levine]

Everyone knows that God is everywhere at once. How is this possible? He's travelling really, really fast. This means that there's some massive time dilation going on. So obviously what was "six days" for him was billions of years for the rest of the Universe.

In all seriousness, though, the next time someone tells me that X can't be true because it's not in the bible, I'm going to pull out my smartphone and ask where smartphones are in the bible. Or computers. Or integrated circuitry. Then, I'll play some Angry Birds on my obviously non-existent smartphone.

Re:I don't believe in relativity

[dfsmith]

God could also have a really well defined momentum, and therefore the uncertainty inequality makes Him omnipresent.

and when will the Bergenholm be built?

Wake me when inertialess FTL becomes a real thing, please.

Re:peh

Not even Isaac Newton.

Does mass matter?

[tonywestonuk]

"Would it bend according to Newton's predictions if you took the "mass" of a photon to be E/c^2?" Did Newton predict that the 'bend' of something in a gravitational field, was related to its mass?? I always thought it was speed that mattered. Doesn't matter if its an atom, or a hammer., both will bend the same way.

Re:Does mass matter?

[Sockatume]

Newton's law of universal gravitation doesn't include velocity at all; it's just the product of the masses over the square of the distance between them.

Re:Does mass matter?

[Sockatume]

Ha, actually looking at the physics shows that the mass just cancels out and velocity is all that matters. Newton didn't predict this though, lacking a good velocity for light.

Re:Does mass matter?

[TapeCutter]

Newton's primary insight is the gravitational field, ie: two bodies attract each other with a force proportional to the combined masses and the distance between them. That he invented calculus to prove it and wrote it all down in his "Principia" is why he is remembered. A photon is neither a hammer , nor an atom. Photons did not have mass so they were believed to be unaffected by gravity. Einstein came along and said mass and energy are two forms of the same thing and a photon would be affected by gravity. The experiment in TFA allowed the universe to make the final call.

Trivia: Newton's Principa contains only two explicit assumptions, one of them was the assumption that "time is constant".

Re:Does mass matter?

How certain were they that photons were massless before relativity though? Classical electromagnetism shows that electromagnetic fields can carry momentum, which causes a lot of people to think or speculate about the mass of light before more modern understanding of momentum developed.

Re:Does mass matter?

Trivia: Newton's Principa contains only two explicit assumptions, one of them was the assumption that "time is constant".

I was under the impression that Leibniz though disagreed:

https://en.wikipedia.org/wiki/Philosophy_of_space_and_time#Leibniz_and_Newton

Re:Does mass matter?

[AthanasiusKircher]

Newton's primary insight is the gravitational field, ie: two bodies attract each other with a force proportional to the combined masses and the distance between them.

It's worth noting that this insight was not at all unique to Newton. There was, in fact, a major dispute in the scientific community about who came up with this idea at the time, since Robert Hooke had already published on this notion. Other scientists had basically also postulated similar ideas in the decades before the Principia.

That he invented calculus to prove it and wrote it all down in his "Principia" is why he is remembered.

Yes -- Newton may have been the first to explicitly identify the specific inverse square relationship (rather than a general form relationship mentioned in the first quotation above), and he had the mathematical apparatus to prove how it all worked.

But it's also important to be clear that the idea of a "gravitational field" or an "unseen force acting at a distance" was a very spooky and strange notion to contemporary scientists in Newton's era. In fact, such ideas were commonly associated with occult ideas; they didn't fit in with the conception of a simple mechanistic universe. Thus, Newton's idea of some strange unseen "force" acting across vast distances would seem like invoking the power of God or angels or some mystical astrological "force" today.

Because of that, many scientists were initially very suspicious of Newton's methodology. Newton therefore wrote a clarification as an appendix to the second edition of the Principia explicitly saying he was NOT assuming the existence of unseen forces and fields. Instead, he claimed his model was valuable simply because the mathematics were an accurate model. (Some historians have argued that this was in fact the most important element of Newton's revolution in thought: he argued for the acceptance of a mathematical model as a scientific explanation, even if we can't explain the underlying causes of that model.) Of course, Newton was a pretty weird guy and believed in all sorts of things that modern science would think weird, so obviously he thought the unseen forces were real. But it's interesting that he worked so hard to distance himself from such ideas at the time -- to be in accord with science of the time, the "force" in his model was thus to be considered a mere mathematical contrivance, rather than how the universe actually worked.

Re:Does mass matter?

[fermion]

This is where not understanding science makes everything wonky. The major problems with Newtonian physics is domain and history. In the later, we observe nature and sometimes see energy moving through a medium and call that a wave. We see object that we can hold an call that mass. Our experience then tells us that some things are waves and some things are mass. It is like an ancient person seeing a piece of wood catch on fire and saying that the fire was in the wood. Current experiments do support such a view, and in as much as Newton assumed that these were separate domains, the theory is wrong even if try to retcon it.

The second issue is domain. At the time of newton nothing moved very fast, so no one apparently thought to 'for slow moving objects' to the theory. Therefore there was no limit to how fast things could go. Einstien added the limit to how fast things could go, making Newtonian mechanics a good approximation for slow moving objects, but still incorrect overall. As Newton had no concept of the speed of light as a limiting factor, and separated the concept of waves and matter, there again is no reasonable basis to retcon classical mechanics.

It is interesting that people fixate on relativity. Like any other modern theory it value is in what new phenomena is can predict that can then be verified. I am somewhat part of the class of physics people that rolls my eyes when people start taking about how great Einstein is and feel justified because after all, when they gave him the noble prize for the photoelectric effect, which was a clever experiment but proved nothing, they also included a grave insult by calling what he did epistemology, and after all it only indicated that the Photon might not be just a particle or a wave. I believe it was the Michaelson-Morley experiment did a much better job of leading us to wave-particle duality, along with the work of Max Plank.

In any case, Newton also left us with another problem. The mathematical distinction between gravitational and inertial mass. These two were never well connected even though they appeared to be the same thing. Einstein kind of circumvented the whole thing with his geometry interpretation. Again, Newton is correct in the interpretation.

I think where the teaching of Relativity fails is that it focuses too much on trains, rulers, and clock because those were things that existed in 1900 and we like to think that history will make things more concrete and acceptable to the student. But arguably Relativity is about whether it makes a difference if you are moving past the magnet or if the magnet is moving past you. Is a deeper concept, but maybe we should try to teach the deep concept instead of just focusing on the mathematical manipulations.

Re:Does mass matter?

[drinkypoo]

Newton therefore wrote a clarification as an appendix to the second edition of the Principia explicitly saying he was NOT assuming the existence of unseen forces and fields. Instead, he claimed his model was valuable simply because the mathematics were an accurate model.

But that was some pretty weaselly bullshit, because that's precisely what he was describing mathematically. And per your link, the text which you claim distances him from unseen forces and fields in fact assumes the existence of unseen forces and fields, simply attributing the forces to God.

Re:Does mass matter?

[mattack2]

Of course, Newton was a pretty weird guy and believed in all sorts of things that modern science would think weird

Covered in a 2005 episode of Nova. See it here
http://www.pbs.org/wgbh/nova/p...

tachyon

[vasilevich]

A tachyon walks into a bar...

Re:tachyon

....and walks out before it arrives.

Re:tachyon

Then the blind men drew their swords and shot each other in the back, right?

Re:tachyon

[maroberts]

Then the blind men drew their swords and shot each other in the back, right?

It explains how Han managed to shoot first.

Re:tachyon

[itsdapead]

Lorenz contraction, says the tachyon.
Why the long face? asks the barman.
A tachyon walks into a bar.

Re:tachyon

[OutOnARock]

I believe it goes something like this....

One bright day in the middle of the night

Two dead men got up to fight

Back to back they faced each other

Drew their swords and shot each other

And if you think my tale is tall

Ask the blind man, he saw it all

Why not 100?

[Sockatume]

Of course, we're celebrating this now because its age will only asymptotically approach 100 years.

Re:Why not 100?

[maroberts]

Amusing, but on seeing this news article I can't help but wonder if Slashdot celebrated every 5 year anniversary with such enthusiasm. 95 isn't really a special marker, and this story is a bit of a non-event.

Re:peh

[Urkki]

Wouldn't it be more fun to relive the story of the first time he got laid?

That's not something to celebrate publicly. Gentlemen and Ladies don't kiss and tell.

99 Years

[physburn]

I make it 99 years since general relavity was written, and 110 years since special relavity was written, what is so special about the first confirming solar eclipse that marks it the beginning of relavity, the solar eclipse meanly showed that light could be bent by gravity, one of the prediction of general relaivity.

Feels like . . .

. . . it was just yesterday.

It's still accepted...

...just as an approximation. And in 100 years' time, Einstein will be accepted as another approximation, a little more representative than Newton.

Re:It's still accepted...

[Gavagai80]

An approximation for certain contexts, which happen to be the common ones in our everyday experience. Newtonian physics is wildly wrong on some things further from our regular experience.

It's still accepted...

You are out of date already, sorry.

Uh..Relativity didn't disprove Newtown

[Ronin+Developer]

Newton's Law of Gravity showed that the force of attraction was proportional to the masses of the objects and inversely proportional to the distance squared: Fg=kM1M2/r^2

Einstein demonstrated in his experiment, through gravitational lensing effect, that mass bends space-time and his famous equation showed mass and energy to be equivalent. This effect, not normally observable in our daily lives, shows that Newton's law is still correct. It's at relativistic speeds and at the quantum level that other terms introduced by Einstein's equations become relevant.

Under normal conditions, we can not see the effect that Einstein predicted.

We did similar calculations using Quantum mechanics to derive other classical laws. It was, fascinating, to see how they hold up.

Re:Uh..Relativity didn't disprove Newtown

You really shouldn't start of your sentences with "Uh" or "Um". It makes you sound like you don't know what you're talking about.

Re:Uh..Relativity didn't disprove Newtown

Um... you're right.

95 years?

[rmandevi]

95 years according to which frame of reference?

Re:95 years?

95 years according to which frame of reference?

Well, perhaps that's more of a biblical question, since we still refer to the years in question as "A.D."

The poetry of the Universe

[wjcofkc]

When contemplating phenomena in this universe, I find that in a small number of situations, a rudimentary understanding can be more readily had by a humble and feeble intellect such as mine if I simply drop the speed of light squared from the equation. C squared is where things get strange. Consider the following: A star 100 million light years away ignites. From out relative position and motion, we measure the light as traveling at ~186,300 miles per second over a distance of 100 million light years. As far as we are concerned, it took a long time to get here. Now for the tricky part. As everyone here I am sure knows, time slows down the closer you get to the speed of light, coming to a standstill once the cosmic speed limit is reached. As a consequence, as soon as the light from that star was generated, it was instantly already here. From our perspective, it took 100 million light years to get here. For the perspective of the light itself (so to speak), the transit time was 0. Apply that to light that is older than the Earth and it becomes a real mind-fuck. In fact, kick back and expand on that concept in many different ways. At least this is according to Dr. Tyson. Despite the complexities, E = MC squared is elegant mathematical poetry.

Re:The poetry of the Universe

[Primate+Pete]

Also, since electrons do not experience time (as you stated), then NOTHING ever happens to them. Ergo, it is boring to be an electron.

That was the point, right? Mind-blowing = infinitely stultifying?

Science is dying

"Newtonian gravity was the accepted theory of gravitation"

Accepted theory? I think there are a lot of 'scientists' who need to go back to high school.

There is no such thing as an 'accepted' theory. A proven theory becomes a law in science (theorem in mathematics).

Since the theory of relativity is not a law, one should not make erroneous statements of 'scientific fact' regarding the nature of gravity, for instance.

Re:Science is dying

A proven theory becomes a law in science (theorem in mathematics).

So, like the the "Newton's law of gravitation"? What gets called a law in science and what gets called a theory is somewhat arbitrary and in some cases historical. There is a continuum of possible confidence in a theory of science, and no specific cutoff on that continuum where things get called a law. Especially since disproven theories still retain the name "law" if that is how it used to be referred to as.

There is no such thing as an 'accepted' theory.

The meaning is quite literal... do most scientists accept the theory or not? Because it is accepted doesn't mean it is correct, but saying it is accepted is a statement about the collective opinions of scientists at a given time. Things like the conservation of momentum are well accepted, because it has been thoroughly tested and no evidence of it being violated has been found. That hasn't stopped it from being checked and considered for violations in fundamental physics research from time to time.

Not "Relativity". "General Relativity".

Totally different thing. Most of the stuff relevant for physicists and engineers is the theory of Special Relativity, and that one's quite older. It concerns the absoluteness of the speed of light and the transformation of basic physical entities in moving reference frames, particularly once the speed is not negligible when compared with the speed of light. One corrollary is the equivalence of mass and energy.

"General Relativity", in contrast, is a mathematical framework surrounding gravity and accelerated reference frames. Most applied physicists are spared from meddling with it.

was it 1922 eclipse that provided solid data?

[k6mfw]

PBS program on Einstein mentioned images and calculations from 1919 eclipse was doubtful. Some claimed it did not show bending of light (star positions still where they should be) but others said, "not so fast." It was 1922 which William Campbell got beautiful images of stars around the eclipsed sun, observed 92 stars observed positions from where they should be. Campbell's first telegram was to Albert saying these images and calculations definitely support his theories. Of course it was not easy for Campbell, his first solar eclipse expedition in 1914 went bust at outbreak of WWI, and following attempts in later years were not good. It was 1922 which Campbell got great images while everyone else (and there were several) either got weathered out or had poor techniques. Another fascinating talked about in this PBS program was after WWI Germans were hated by Brits, French, Americans but Einstein was very welcomed and was a huge "rock star" where all these people wanted to meet him, get autographs, get pic taken with him. Even though virtually all don't understand theory of relativity.

I am not a physicist but I'm confused

[UnknowingFool]

I thought the 1919 solar eclipse was the first confirmation of General Relativity not special relativity (E = mc^2).

The irony of the 1919 data is overwhelming

[Yevoc]

According to Scientific American, the eclipse-based measurements of 1919 ended up yielding only 3 data points, all of which had very large error bars. One of the three results actually corroborated Newtonian gravity from insufficient lensing, while the other two results showed enough lensing to corroborate general relativity.

With only 2 out of 3 data points, with the other one validating the competing theory, and Einstein still said this of the experiment : "[If the data had disproved relativity?] Then I would feel sorry for the good Lord. The theory is correct."

This is coming from a man who failed his PhD thesis more than once due to algebraic errors and other sloppiness.

It figures that this same man is also the most venerated scientist of all time (by non-scientists at least).

Re:The irony of the 1919 data is overwhelming

This is coming from a man who failed his PhD thesis more than once due to algebraic errors and other sloppiness.

While he did make an algebraic mistake in his thesis, he was awarded his PhD in 1905, and his correction was not made until 1911. He didn't fail the doctorate program, let alone multiple times.

Re:The irony of the 1919 data is overwhelming

[themusicgod1]

Relevant LessWrong: "If Einstein had enough observational evidence to single out the correct equations of General Relativity in the first place, then he probably had enough evidence to be damn sure that General Relativity was true."

Re:The irony of the 1919 data is overwhelming

[Yevoc]

He didn't fail the doctorate program. He failed his defense. Three times.

Re:The irony of the 1919 data is overwhelming

[Yevoc]

The point is that he had enough hubris to believe that general relativity worked up to cosmic scales without any error. The fact that there was in fact a substantial amount of experimental error, some of which didn't add up, didn't disturb him in the least.

General relativity actually does have problems on the cosmic scale, which is what led Einstein to introduce the cosmological constant, amongst other things. (Today people still don't know if/how general relativity holds in some places in the cosmos, ironically enough right next to a large star is one of them, kind of like the 1919 measurement) Between the arbitrary cosmological constant and his undying disbelief in quantum physics, you can see he had a disdain for reality and instead preferred the fiction inside his head.

I wouldn't harbor so much venom for the man if he hadn't become such a celebrity with this kind of behavior (which of course is something he actively pursued and enjoyed).

Re:The irony of the 1919 data is overwhelming

[Yevoc]

Whoever modded this down really succeeded in pissing me off. This is the last time I bother making posts to scientifically-illiterate code monkeys who are clearly the same Einstein worshippers I abhor. Bye.

Re:The irony of the 1919 data is overwhelming

Maybe because you complain about people worshiping Einstein then spend a bunch of time talking about personal details of Einstein? His theories were what was important, regardless of the person behind them, so you seem to be falling into the same trap of looking at the person instead of the work.

Or maybe because you base part of your argument on urban legend, the idea that Einstein has failed something related to math, when he was quite advanced compared to his peers. He did fail the non-math and science parts of a university entrance exam, when applying two years early, although passed the second time he took it and was still a year younger than the typical university freshman. He never failed his thesis defense though (something that is actually rather difficult to do in most doctoral programs, even back then). He did withdraw his dissertation, once, before defending it, after having submitted it less than 2 years out of undergrad and not having put much work into it. When he does re-submit his dissertation, it gets published and is one of the ten most cited papers in that decade.

Irony

[doug141]

That article at slate did not address the possibility of the universe being such an isolated system. It seemed to be an angry rant by a physicist who was mad at other scientists for not sharing his views on the material world and consciousness.

You conflate correlation with causation.

It is also possible that the universe has determined, or more correctly caused, both the particle's state and your actions.In other words the cause is in the past of both the particle's current state and your actions. That is why they are correlated, not because either causes the other, but because both are caused by what has happened in the past.

A key logical error is in thinking that anything at all is outside the system and yet still interacts with it. Another key logical error is thinking that we can actually isolate parts of the system.

We are all connected man.

Re:You conflate correlation with causation.

You conflate correlation with causation...It is also possible...A key logical error is in thinking that anything at all is outside the system and yet still interacts with it.

You call it a key logical error, except it was explicitly stated as a possibility in the post and that the superposition holds only if you assume that determinism is not that true...

Sorry, that clarifies nothing.

Here is what you are saying:

Assume the speed of light is constant, and a limit.

[tortured analogy here]

And voila!, the speed of light is not only a limit, it is constant!

The math may work out, and I'm sure it's useful for things like rockets and gps and such. But none of this is remotely understandable by people. It's just analogy after analogy that demonstrate that paradoxes are inherently incomprehensible.

I remember reading that about 1000 people have ever really understood relativity. I suspect most of them were lying or deluded.

95 years? Must not have gone to a public school

[guruevi]

Newtonian gravitation was still being taught at my high school less than 20 years ago.

Time Dilation + Light bending Einstein correct.

Can anyone find a ref to an experiment successfully detecting the slightest trace of length contraction?

Because there are alternate theories which say yes to time dilation and no to length contraction...
And they also allow Newtonian mechanics to go on working just fine.
(Time becomes properly invarient with space, not just "covarient".)

With some nice consequences if Einstein really turns out to be only half-right: "easy" >c space travel for one. (no requirement that one can't go >c m/s, just that one can't interact in any way with anything that is coming/going >c m/s.

Also, one can build really accurate gyroscopes with nothing but light moving, because it would turn out that light doesn't always go "c" m/s, it would be going "c +/- d" m/s, where d is the detector velocity... Interesting that said gyroscopes already exist...

But hey, Einstein must have been 100% correct about everything he had an opinion on, after all, he was *really* smart!

Like, "infallable god" like levels of correctness.

I think he was wrong when he was younger, right later in life: But his image was already too popular to gainsay even himself.
Poor guy, his last words: [addition mine] : "I've done enough [damage]."
He'd just turned down potentially life-saving medical treatment - if he'd been young, we'd have have called that suicide.

ref: Heretical Verities, Phipps

Re:Time Dilation + Light bending Einstein correct.

Can anyone find a ref to an experiment successfully detecting the slightest trace of length contraction?

Anything involving relativistic electromagnetism? If you have time dilation without length contraction, then electromagnetism no longer becomes invariant, and calculations for things like distribution of synchrotron radiation or relativistic Doppler effect will get you different results in different frames. Time dilation and length contraction go together as the same effect, because within the moving frame where various effects attributed to time dilation in our frame would not work in other frames.

Also, one can build really accurate gyroscopes with nothing but light moving, because it would turn out that light doesn't always go "c" m/s, it would be going "c +/- d" m/s, where d is the detector velocity... Interesting that said gyroscopes already exist...

Except that the Sagnac effect is completely consistent with relativity and that such devices involve different path lengths being travelled by a constant speed c. The design of such gryoscopes pretty clearly demonstrate it is a constant c effect, because of their dependence on the area enclosed by the light's path, whereas a chance in c would allow for a zero-area-enclosed interferometer to still act like a gryoscope.

But hey, Einstein must have been 100% correct about everything he had an opinion on, after all, he was *really* smart!

Yeah... which is why scientists couldn't care less about Einstein's medical choices or other interests, and why a vast majority of even the early general relativity work was done by other scientists. Pick up a textbook and look at coverage of special relativity or general relativity and find a lot that is not Einstein.