Speed Of Light Broken With Off Shelf Components

jukal writes "An interesting article at NewScientist.com: " Now physicists at Middle Tennessee State University have broken that speed limit over distances of nearly 120 metres, using off-the-shelf equipment costing just $500.", " it may be possible to use this reflection technique to boost electrical signal speeds in computers and telecommunications grids by more than 50 per cent. Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms. Hache says it may be possible to send usable electrical signals to near light speed. ""

i wholehearteddly believe this

[krog]

anyone selling a bridge?

Re:i wholehearteddly believe this

[motorhead]

Jeez, it's not rocket surgery.

Re:i wholehearteddly believe this

[Sigy]

This is compleately possible. They teach this in 8.03 (a basic waves class). As the article said the trick is that no energy/information can be sent faster than the speed of light. The part at the end about transmitting at near the speed of light is just basic wave guides.

186,000 miles per second

[sulli]

it's not just a good idea, it's the law!

Re:186,000 miles per second

[AJWM]

That would be a hell of a lot funnier (read, still not very funny) if you used the correct speed: 186,282.4 miles per second. Your number is a mere 99.85% of lightspeed.

Re:186,000 miles per second

I stand corrected. Hey, what the hell do ya want for a throwaway almost-fp anyway?

Re:186,000 miles per second

[damien_kane]

That all depends on what you're sending the light through.
Sure, the speed of light in a vaccuum may be 186282.4 mi/s (I'm not sure myself and am too lazy to look it up), but the speed of light in water, lucite, glass, even air, are different than that of light in a vaccuum.

Re:186,000 miles per second

[Transient0]

and your number is only 0.999998983 (approximately) of the EXACT speed of light. 186,000 miles per second(or 300,000,000 metres per second for those of us who use sensible weights and measures) is the usual approximation, more than good enough in this case.

stop being a nitpicker.

Re:186,000 miles per second

[newton34]

Medium Refractive Index
refractive index of a vacuum 1.0
refractive index of air 1.0003
refractive index of ice 1.31
refractive index of a water 1.33
refractive index of glass 1.5

Speed of Light in a Vacuum and Other Mediums
Medium Speed of Light in Medium
speed of light in a vacuum is 299 792 458 m/s
speed of light in air is 299 702 547 m/s
speed of light in ice 228 849 204 m/s
what is the speed of light in water 225 407 863 m/s
what is the speed of light in glass 199 861 638 m/s

Re:186,000 miles per second

[AJWM]

Yep, and the speed of light in all those media is a lot less than 186,000 miles/second. (Well, possibly except in air, I don't recall the refractive index of air WRT vacuum off hand.)

Re:186,000 miles per second

And you'd be a lot funnier if you SHUT THE FUCK UP, you persnickety bastard.

Re:186,000 miles per second

[AJWM]

Five nines beats a pair of nines any time ;-)

Re:186,000 miles per second

[Catbeller]

Damned straight. Maybe if we put a few of this criminals in federal maximum security prison for a round of Ozification, we would all sleep safer in our beds.

After all, the law is the law, and that's all that matters -- sanity need not apply...

Re:186,000 miles per second

[painkillr]

Look up the difference between accuracy vs. precision.

Re:186,000 miles per second

[brunes69]

Actually, the speed if light is defined as being 299792458 metres / second, exactly.

Re:186,000 miles per second

[NetFu]

Uuum, the 2nd definition for "accuracy" at M-W.com (Merriam-Webster) is basically "precision". So what's your point? Why should he use one or the other when they are basically defined as being the same?

Try looking up your information before you post...

Re:186,000 miles per second

[Happy+Monkey]

Because the guy with five nines is probably armed.

Re:186,000 miles per second

[sirsex]

Accuracy is how close you are to the right answer. Precision is how many digits you give in for answer. 3.1414141414114141 is very precise, but if the right answer is 42.0, then your not very accruate.

Re:186,000 miles per second

[hpa]

The speed of light in a vacuum (the Einstein Constant, c) is exactly 299 792 458 m/s, no more, no less. 300 000 000 m/s is just a convenient approximation.

Re:186,000 miles per second

[CableModemSniper]

Um we use them interchangbly but they do not mean the same thing. Think of a dartboard. Being accurate is throwing 5 darts and they all hit the bullseye. Being precise is throwing five darts and they all hit the same spot on the dartboard, but are no where near the bullseye.

This has been your daily dose of high school chemistry (including the the standard high school analogy)

Re:186,000 miles per second

[the+way,+what're+you]

That depends on where the decimal points are. ;)

Re:186,000 miles per second

[netsharc]

Define "one second". :)

The time taken for light to travel 1 / 299792458 metre?

Re:186,000 miles per second

one second: the time that elapses during 9.192631770 x 109 cycles of the radiation produced by the transition between two levels of Cesium 133. Of course.

I hope you weren't being serious ;)

Re:186,000 miles per second

[darthpenguin]

One second is the duration of 9,192,631,770 cycles of microwave light absorbed or emitted by the hyperfine transition of cesium-133 atoms in their ground state undisturbed by external fields.

Re:186,000 miles per second

[orac2]

One second is defined as "the duration of 9 192 631 770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the cesium 133 atom."

The meter is then defined in terms of this. There really are very few basic, basic units, and the kilogram is currently the only one which still relies on an actual physical prototype, and NIST are currently working on a 'electric' kilogram.

Re:186,000 miles per second

[Dirtside]

it's not just a good idea, it's the law!*

Actual mileage may vary.

Re:186,000 miles per second

yeah, i've seen that t-shirt (and bumper sticker, and refigerator magnet, etc., etc.) too.

Re:186,000 miles per second

[Trepalium]

The question, mister Guybrush, is if you think you can beat a pair.... A pair of blood thirsty pirates.

Re:186,000 miles per second

[RatFink100]

In science there are no laws, only theories which haven't been disproved yet.

Re:186,000 miles per second

[Vinson+Massif]

Your accuracy example exhibits both accuracy and precision. Accuracy is the proximity of the dart cluster center to the bullseye. Precision controls how closely they cluster.

Re:186,000 miles per second

[hazem]

It seems (if my teacher way-back-when) was correct, your answer (or dart throws) would be accurate if the average of your attempts came averaged to the "correct" answer - some of the darts could hit the bullseye, but as long as the others were distributed in a pattern around the bullseye, you'd still be accurate.

Precision would be a measure of how close all your answers are to each other, regardless of their accuracy.

In both cases, the best case is to be both precise and accurate. If have a problem with one, it's better to be precise than accurate.

Consider 3 army marksmen, zeroing their weapons on the firing range.

Soldier One shoots his 3 rounds. All three not only hit the center of the bullseye, but they are in a tight group. His shooting was both precise and accurate. His weapon is zeroed, and he will shoot well.

Soldier Two shoots his 3 rounds. All three are high and to the left, but are still in a very tight group. He is precise, but not accurate. Fortunately, he knows he only has to adjust his sights and test again. He can become both precise and accurate simply by adjusting his rifle.

Soldier Three shoots. His rounds are all over the target. When you draw a triangle connecting them, it is centered over the bullseye. His shooting is accurate, but not precise. He has the biggest problem. His shooting is eratic and will take lots of work to gain precision. Simply adjusting his rifle might move the center of his shooting, but he'll still be all over the place.

In the lab, high precision with low accuracy indicates that you are following your procedure well each time. You can fix this by finding the flaw in your procedure that is ending in an inaccurate result.

On the other hand, if the average of your answers is correct, but you're all over the place, this indicates that your methodology or equipment are flawed. This is much harder to track down.

Re:186,000 miles per second

your knot verry akurat ether.

Re:186,000 miles per second

[Accuracy vs. precision - correct stuff deleted]

> This has been your daily dose of high school
> chemistry (including the the standard high school
> analogy)

The sad thing is that I just gave my (college freshman chem) students a test this past Friday and they still get accuracy and precision wrong.

It's not a difficult concept, but the incorrect usage of both terms has been drilled into us so well that even most Slashbots (who like to think that they're smarter than most) can't get it right. :)

Re:186,000 miles per second

That's pretty much the definition of a scientific law, actually. So, YES, there are laws.

Incorrect laws can eventually be disproven, but they're still laws until done so.

Re:186,000 miles per second

[khuber]

the Einstein Constant, c

To clarify a point, the speed of light was first (inaccurately, but in the ballpark) estimated in 1676 by Roemer, long before Einstein, Einsteins grandparents, ... Bradley got a closer value in 1729.

-Kevin

Re:186,000 miles per second

[RatFink100]

The word law implies that something is fixed, immutable. That's why, I think, serious scientists talk about theories and hypotheses not laws.

Re:186,000 miles per second

No, that should be:
"The time taken for light to travel 299792458 metres"

Of course, for the real definition, see the other posts.

Re:186,000 miles per second

[hobbesmaster]

According to my Chem class:
Law - A mathematical relationship in nature supported by many experiments
Theory - An explanation of a relationship in nature supported by many experiments.

Re:186,000 miles per second

[jelle]

Once you have time and distance defined, then a kilogram weight can be defined like '10cmx10cmx10cm of H2O at 20 degrees celcius'.

Now find a way to define temperature and you're done.

Re:186,000 miles per second

Yes, but that is an exact quote off of a T-shirt that was popular about 15 years ago, as I remember.

Re:186,000 miles per second

[AndrewRUK]

Now find a way to define temperature and you're done.

Simple.
"The kelvin, unit of thermodynamic temperature, is the fraction 1/273.16 of the thermodynamic temperature of the triple point of water." (http://www.npl.co.uk/npl/reference/temperature.ht ml)

Re:186,000 miles per second

[forgotmypassword]

Temperature is already defined from phase changes at certain pressures.

Now find a way to define pressure and you're probably not done.

Re:186,000 miles per second

[frozenray]

One second is the duration of 9,192,631,770 cycles of microwave light absorbed or emitted by the hyperfine transition of cesium-133 atoms in their ground state undisturbed by external fields.

Er, wouldn't it be easier to just buy a watch with a seconds hand?

:)

Re:186,000 miles per second

> That would be a hell of a lot funnier (read,
> still not very funny) if you used the correct
> speed: 186,282.4 miles per second. Your number
> is a mere 99.85% of lightspeed.

99.8484022108368799199494960339785%, you obtuse piece of flotsam.

Re:186,000 miles per second

Why so close to 300km/sec? Because light happens to go around the earth almost exactly 7 1/2 times a second.

And Napoleon wanted a more scientific version of the yard, but wanted it similar to the yard (kind of the way Christians placed their holidays near Jewish ones). So they divided the distance between the pole and the equator into 10000 units. Bam, 40,000 units to go around the Earth, 4 x 7.5 = 300,000.

Re:186,000 miles per second

[jelle]

Pressure is just Force per Area. Area is directly related to the distance, and force can be defined by weight and distance...

I got this reply for a definition of temperature.

Now all we need is one equation that binds all this to electromagnetic fields and we've beaten Einstein and Hawking...

Re:186,000 miles per second

[Citizen+of+Earth]

There really are very few basic, basic units, and the kilogram is currently the only one which still relies on an actual physical prototype, and NIST are currently working on a 'electric' kilogram.

Why not just define it as the mass of 1.0978e30 electrons? Is that 'electric' enough for you?

Re:186,000 miles per second

[jareds]

Pressure is just Force per Area. Area is directly related to the distance, and force can be defined by weight and distance...

You're using mass to define a unit of pressure and pressure to define a unit of mass. Try again.

Re:186,000 miles per second

[kcbrown]

refractive index of a vacuum 1.0
refractive index of air 1.0003
refractive index of ice 1.31
refractive index of a water 1.33
refractive index of glass 1.5

Look on the researcher's face when he realizes that he really can't bust the speed of light in a vacuum: priceless.

Re:186,000 miles per second

[jelle]

"You're using mass to define a unit of pressure and pressure to define a unit of mass. Try again."

I defined mass as a function of distance and a body of water in a previous posting. Go to sleep.

Re:186,000 miles per second

[jareds]

You need pressure to determine how much water fits in that volume.

Re:186,000 miles per second

[Alan+Shield]

Here's an example of the difference:

Mclaren Formula 1 team in one race a couple of years ago had a problem with their engines. The engine had a manufacturing flaw (ie. it was not made accurately). During the middle of the next race, both cars had identical engine failures on the same lap, within a couple of corners of each other - that's precise - both engines were made very precisely to the wrong specification.

Re:186,000 miles per second

[trezor]

Define "one second". :) The time taken for light to travel 1 / 299792458 metre?

Actually. That would make the speed of light 1/299792458 meters/second. Out of only two "seemingly good" answers, you picked excactly the wrong one.

Math is hard sometimes, huh? :) Reminds me of a slashdot.sig

Calculus and alchohol don't mix. Don't drink and derive!

Re:186,000 miles per second

[Spire]

There really are very few basic, basic units, and the kilogram is currently the only one which still relies on an actual physical prototype....

Don't you mean the gram? The kilogram is not a basic unit.

Re:186,000 miles per second

Well, acutally the kilogram is the basic unit.... the SI system has i quirks too... ;-)

Re:186,000 miles per second

[vandy1]

As it turns out, the speed of light is defined to be a constant (ca. 2.99792458x10^8 ms^-1 IIRC) and we a second is defined to be "the duration of 9,192,631,770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the cesium atom." with this definition being agreed upon in 1967. Atomic clocks based on the cesium atom then became the primary means for accurate timekeeping. We then define the metre in terms of these two constants.

"You can't always have it your way" - me

Re:186,000 miles per second

[Isle]

E = mc^2?
Mass is energy.

(btw, unlike what most people believe this is only true for "static" objects)

So define mass as m = E/c2

We can already define energy as the energy required to release an electron from a hydrogen atom.

Re:186,000 miles per second

[Spire]

Dammit, what kind of nonsense is that?! It's back to drams and stone for me!

Re:186,000 miles per second

Or cheating, if you're not playing with jokers.

Re:186,000 miles per second

[Ctrl-Z]

How is that any different than defining it as the mass of an arbitrary chunk of platinum-iridium?

Re:186,000 miles per second

One second = the time it takes to say "one Mississippi"

Re:186,000 miles per second

[Arpie]

Ok... next you'll say an apple falls because of the law of gravity, right? IMO, Wrong. The apple just falls. We use a model called "the law of gravity" to represent its fall. This "law" does not even hold true for everything (e.g. at the levels quantum mechanics deals with).

I think we've all been brainwashed by our current society to think that whatever scientists come up with must be true (even if there are contradictions). All scientists do is propose models that satisfy certain (limited) conditions and help predict some behaviors consistenlty. The causality, however, is nothing but a model that helps us understand the model. It has nothing to do with reality.

Of course, I might be wrong and stupid. But who isn't? ;-)

Re:186,000 miles per second

All electrons are identical; the same can't be said for chunks of platinum-iridum.

Re:186,000 miles per second

[Ctrl-Z]

The same can be said if there is one authoritative chunk. That is the present situation. Not that I'm suggesting that using a chunk of metal to define mass is the best solution, but it isn't any worse than defining it as the mass of a bunch of electrons.

Re:186,000 miles per second

[Zordak]

Have accurate information before you correct somebody. The Kilogram is indeed the SI unit for mass. The "standard" is a metal cylinder (I forget which kind of metal) that weighs, by definition, exactly 1 Kg. Think about SI units. What's a Newton? A kg*m/s^2, not 1000 g*m/s^2. Sorry, you lose.

Re:186,000 miles per second

but I beat you to the throwaway line. ha!

Re:186,000 miles per second

- This just in: Today in Portland there are no more pants. A maniacal despot has kept the city in culottes for weeks.

I believe the parlance of our times is "capris" ;)

Re:186,000 miles per second

[jelle]

Water is not elastic, pressure does not change its volume. Physics 101...

First Post at Light Speed!

Ack! I bet by the time I hit submit, some other guy using electrons travelling faster than light will have beaten me to first post!

Damn you technology!

Re:First Post at Light Speed!

[Storm+Damage]

Damn, and I wasted all my mod points earlier this morning...it's been so long since a FP was really funny...April 1, IIRC

Re:First Post at Light Speed!

[grumpygrodyguy]

Ack! I bet by the time I hit submit, some other guy using electrons travelling faster than light will have beaten me to first post!

Actually the original post is in error. Electrons only travel a few cm/s(centimeters-per-second). The signal that propogates down a wire travels by using the electron stream as a medium(like sound waves in water).

I did this years ago

[briglass]

Using onion skins, sixty-four removed coke labels and an ampersand.

Re:I did this years ago

[laserjet]

In my day, we didn't have ampersands. We had to print out the letter S, cut it out, paste it upside-down, and draw a line through it to speed up those damn atoms. And even then, it only worked on Tuesdays. You have it lucky, I'll tell you.

Re:I did this years ago

[selectspec]

Ampersand technology is so passe. These days we can do this experiment with just cheese-wiz and the note B-flat.

Re:I did this years ago

[briglass]

I, too, attempted the feat using cheese wiz. I found the result to be much much slower than the actual speed of light, but with a fantastic cheese wiz flavor.

Re:I did this years ago

[AndrewRUK]

You think you 'ad it tough, lad?
When I were a lad, we 'ad to carve an ampersand int' block o' wood, mix up our own ink from what we could scavange, 'unt out coke labels int' municipal tip (that were if we were lucky, mind, most days we 'ad to pull old pepsi labels out t'sewer with bare 'ands,) and beg onion skins from the greengrocers. Then we had to mix 'em all op in the one bowl our family 'ad.
And we only got light-speed on't second thursday of t'month. If we was lucky.
And when we got 'home at t'end of t'day, our dad would beat us with 'is belt for dirtying t'bowl, and 'e would make us lick it clean, beat us some more, and send us t'bed.
You 'ad it easy, I tell ya.

Re:I did this years ago

[Ella+the+Cat]

Luxury

Re:I did this years ago

[Miqlo]

You're lucky!
When we were kids, we used to live in a Einstein-Bosen anomaly in the middle of the road. And every morning, five eons *before* we went to bed, we'd get up sweep the neighbouring five parsecs. And there were no onion peels except once every half an eternity, the coke labels had evolved into bickering slashdotters and ampersands used to murder us twice over. If we were lucky! And in the evening, our dad would come home, beat us to death with an entangled pair and sweep the anomaly clean with our bodies. Then, maybe, we got to break the speed of light, but only if the current year was a prime dividable by the pi and the letters a, c and m.
Mark my word, laddie, easy you had it!

Re:I did this years ago

[hplasm]

I still have one of those damn ampersands embedded under my skin. Still, it could have been worse, when I think of of Cuthbertson's tragic octothorpe encounter....

Re:I did this years ago

[FatAlb3rt]

I know you're lying 'cause an updside-down S is still an S. I'm on to you now . . .

Re:I did this years ago

[laserjet]

Hah! if we only had that luxury! When I said upside down, I meant physically flipping the paper upside down before we pasted it! And we had to make our own paper, too!

Re:I did this years ago

ahhh we used to dream of having an ampersand!

already?

[Sebastopol]

i didn't realize we were overdue for yet another "speed of like broken" article submission.

guess taco's gotta meet his quota...

Re:already?

[Soko]

i didn't realize we were overdue for yet another "speed of like broken" article submission.

Ah, like, doooood, like, it's physics we're like talkin' about here, like y'know, not like your trip to the like bar where you were like refused by like 20 wimminz. Get it like right, doooood - that's the speed of dis-like anyways. :-p

Soko

Re:already?

I guess we are. And once again it is painfuly obvious that a score of 3+ has to be funny while informative is hovering around 1 or 2.

Only here is funny the equivalent of uninteresting.

I'm going to sue

[L.+VeGas]

That explains why I've been getting sunburned lately.

Re:I'm going to sue

[jbarket]

Well, according to the fellows over at kuro5hin, this might be my fault. I smell a class action lawsuit in my future, heh :D

Re:I'm going to sue

[kometes]

> That explains why I've been getting sunburned lately.

Not only were you sunburned, but it appear *before* you went out in the sun.

Re:I'm going to sue

[forged]

• it appear *before* you went out in the sun.

Minority Report, anyone?

Re:I'm going to sue

*dammnit* you beat me to it!

Re:I'm going to sue

Sure, you paying? It's $9 a ticket in my town. =(

Re:I'm going to sue

[MoogMan]

Ahh but that begs the question... What happens if you decide not to go out into the sun *because* you have sunburn? Dont do it! Dont do it I beg you, for the love of the universe, dont do it...

Confusing headline

[Bonker]

Speed Of Light Broken With Off Shelf Components

Careful here, guys. Breaking the speed of light would be a truly wondrous, nobel-prize winning acheivment. Building transmission eqipment which boosts signal speed is really good and worthwhile, but nowhere near as important an advanced as superluminal transmission.

Please check your headlines!

Re:Confusing headline

[evilviper]

Umm, did you read the article? The first paragraph says:

Electric signals can be transmitted at least four times faster than the speed of light using only basic equipment that would be found in virtually any college science department.

Please remember, it wasn't that long ago that "Cold Fusion" was just such a 'confirmed' scientific experiment.

Re:Confusing headline

[burrows]

They're not talking about the speed of light, but the speed of light transmission. Slightly less spectacular, to say the least.

Re:Confusing headline

[doorbot.com]

Careful here, guys. Breaking the speed of light would be a truly wondrous, nobel-prize winning acheivment. Building transmission eqipment which boosts signal speed is really good and worthwhile, but nowhere near as important an advanced as superluminal transmission.

Of course, it is possible for the speed of light to be faster than its (normal) speed in a certain medium. For example, the speed of light through "air" is known, and is slower than the speed of light in a vacuum (and assuming no nearby gravity wells and all that fun stuff).

If you can get light to exceed it's normal speed through a certain medium, you get a "sonic boom," otherwise known as Cherenkov Radiation.

Re:Confusing headline

[ponxx]

In the case of Cherenkov radiation the speed of light in the medium is certainly not faster than the "normal speed of light in the medium". Rather, the speed of a charged particle is faster than the speed of light causing the equivalent of the sonic boom in the form of a usually bluish radiation.

Think about it, in the case of the sonic boom, the airplane exceeds the speed of sound, not the sound itself!

Re:Confusing headline

[dwaggie]

uhm. . . tachyons -- a proven subparticle -- break the speed of light all the time. And we have created things to make said tachyons, and to monitor them as they travel . . . Besides, it would have to be proven that it would help further humanity in some significant way to garnish a Nobel.

Re:Confusing headline

tachyons proven to exist? I think not. Or would you care to cite reproducible experiments to back up your claim?

Re:Confusing headline

your last sentence makes no sense. how can it exceed the speed of sound but not "exceed the sound itself" (whatever that's supposed to mean)? when a plane breaks the sound barrier, it is outrunning it's own sonic shockwave. so yes, it exceeds the speed of sound and "the sound itself".

Re:Confusing headline

[Bill+Currie]

he means the speed of the sound waves travelling through the medium is not in excess of the usual speed of sound through that medium.

Re:Confusing headline

[evilviper]

I was just making the point that Slashdot editors aren't misrepresenting this any more than the 'New Scientist' article is.

Re:Confusing headline

[mishac]

First of all tachyons are NOT by any means proven. Second of all, tachyons don't "break" the speed of light. They go faster than light but CANNOT SLOW DOWN TO BE SLOWER THAN LIGHT. Going faster than light is not forbidden, nor is going slower than night. It's ACCELERATING PAST the speed of light, whether getting faster or slower, that is forbidden.

Re:Confusing headline

[dwaggie]

Oh? I classify anything that can be observed and reported, on more than one occasion, more than proven to exist.

Relativity is also about perceptions of speed. If you were nearing the speed of light, and a tachyon was to pass you in a measurable way, the tachyon would not be going at the speed of light, relative to you. Note that we always say speed, and not velocity. Speed is a scalar quality and is thusly bound by the rules of observation and direction. I discount Einstein's general rules of special relativity as a means to an end. For a long time, Newtonian physics was the only way to explain how things moved. Now, we have Newtonian and Einsteinian. My comment is simply meant to push the notion that we limit ourselves too much when it comes to Physics, and too many people have taken a theory (since we have never, and may not ever, truly proved it to be accurate). I'm much more of a quantum theorist when it comes to Physics, and relativity is an annoyance.

There is more things in Heaven and Earth, Horatio, than is dreamt of in your philosophies.

I'm almost certain that as we develop the technology to reach these speeds, we'll find anomolous activity that wavers away from Special Relativity. Just as the Newtonian physicists found with large vectors approaching the speed of light.

Re:Confusing headline

[djdrew6k]

WHAT?! Uhm, maybe, but probably not. Not only has one never been seen nor inferred indirectly, but the tachyon was more or less just a particle that "possibly" might have been seen to exist in various point particle theories, which to this date have all but been replaced by string theory and its encompassing M-theory.

Basically, in one interesting version of point particle theory, infinities would cancel if there were in existance a certain subset of exotic particles with spin of -2, known as "tachyons". The theory was shown to be implausible, but the idea of tachyons stuck when Star Trek used them in the ships' deflector shields. -abomb

Re:Confusing headline

[dwaggie]

Well, alright, so I stretched the truth a bit. More or less, they have been made as a piece of particle that is one of the more leading ideas on certain anomolies within experiments. After all, someone had to come up with a reason why things happened different in some places.

Re:Confusing headline

[John+Hasler]

Cherenkov Radiation is emitted when a massive particle travels faster than the speed of light in the local medium. The most common example is the blue glow in a pool reactor, caused by fast neutrons moving faster through the water than light can.

Re:Confusing headline

I classify anything that can be observed and reported, on more than one occasion, more than proven to exist.

You much believe a lot of really strange things, since people report to observe just about anything.

Re:Confusing headline

I'm much more of a quantum theorist when it comes to Physics, and relativity is an annoyance. I believe you're much more of a crackpot than any kind of theorist (except conspiracy). Tachyons have never been observed. They've been postulated. Not the same thing. If relativity hasn't been proven enough for you, it may be hard to make you happy. As you know, being a quantum theorist, the marriage of QM and SR gives us QED, which has been proven to better than parts-per-billion accuracy. Please fasten your chin strap - your tinfoil helmet may have shifted.

Electrons travel at 2/3 c in wire -- WRONG

While the instantaneous speed of electrons in copper at room temperature is about 1.6 x 10^8 cm/sec (and in random directions), the drift velocity of the electrons which determines the measured macroscopic circuit current is much smaller.
Since an electron carries a charge of 1.6 x 10-19 Coulombs, and one Ampere is a current of one Coulomb per second, the number of electrons passing any cross-section of the wire is 1/(1.6x10-19) or about 6.3x10^18 electrons per second. This must equal the drift velocity Vd of the electrons times the number of mobile electrons Nl per unit length. Since copper has a valence of one, and fundamental experiments have shown that these valence electrons behave just like free electrons, Nl is just the density of copper atoms (8.45x10^22 / cm^3) times the cross sectional area A of the wire. Therefore,

Vd = 6.3x10^18 / (NlxA)

or Vd = 0.0024 cm/sec

The time for an electron to traverse the one meter length of the wire is therefore about 12 hours. The drift velocity of electrons is very small due to the carrier scattering with the atomic vibrations ("phonons") at room temperature. In fact, it is just this scattering behavior that is responsible for the linear relation between electric field and current density in a conductor, or in more familiar terms, Ohm's Law. Note that the electromagnetic field, and hence any voltage changes, associated with the electrical current propagates down the wire at a speed close to the speed of light (3x10^10 cm/sec).

Links & a question

[alienmole]

Of course, we're going to have the usual back and forth about how this isn't really breaking the speed of light, it's just the group velocity, etc. For those unfamiliar with the issue, the following links might help:

http://scienceworld.wolfram.com/physics/Superlumin al.html
http://www.weburbia.com/physics/FTL.html
http://physicsweb.org/article/world/13/9/3

The thing that really seems interesting about this is that they're doing this with cheap equipment, which will make experimenting with this a lot easier.

Can anyone explain how this would be used to increase subluminal transmission of electrical signals, as mentioned in the article? This whole group velocity thing has always seemed like a bit of an illusion to me, and none of the explanations I've seen has really clarified how it's anything more than that.

Re:Links & a question

[Transient0]

THANKS.

those links were exactly what i needed in order to parse the article.

Re:Links & a question

[twifkak]

Maybe you're talking about something else, but it seems very simple to me:

Say you have a line of cars, all smooshed up against each other. The one in the back presses the gas enough to tap into the car infront of him (nigh instantaneously, as they're nigh touching). The driver in front has superfresh reaction time (considering that delta_t~=10^-43, and this is just an analogy, this would be feasible), and immediately steps on his gas. It goes on down the line, proceeding quite quickly, while the cars never break 1 mph.

If you don't like that analogy, apply the same idea to a game of pass-the-poke.

Or if you're talking about something else entirely, then sorry for burning your eyes with my uselessly radiating text.

Re:Links & a question

Don't you mean, "...then sorry for burning your eyes with the uselessly radiating background to my text."? --This is assuming we all choose to view Slashdot posts in black and white.

Re:Links & a question

Sounds like you're talking about traffic waves, which have been shown to travel at the speed of stupidity. (I'm not calling the poster stupid, I'm calling the guy in the car in front of me stupid.)

Re:Links & a question

I don't think the ping pong analogy describes the same phenomenon. The ping pong ball at the ned appears to come out instantaneously , but there is actually a deformation wave which moves down the tube of ping pong balls at the speed of sound. If this were not the case, we could just as easily string a wire from hear to mars and just communicate with tugs as FTL.

A better analogy is the following:

Say you have a huge scissor with blades a light year long, opened. The scissor blade tips are .5 light years apart. You then close the scissors so that the blade points of the scissor approach each other at c. Now imagine the point where the scissors 'cross' each other ( the intersection of blades. This point will move rapidly along the blades as you close the handles. If the tips of the blades are moving towards each other at c, then the intersection of blades is moving faster than c. Buth the point is that this 'intersection point' is just not a real object, so SR is not violated.

Re:Links & a question

[femto]

I'm not sure how physically accurate this analogy is, but it gets the point across (I think)

Imagine a beam of light from a lighthouse shining on a wall. As the lighthouse turns, the spot of light sweeps across the wall with a certain speed. As you move the wall further away from the lighthouse, the speed of the beam across the wall will increase. At very large distances, the spot will be sweeping across the wall faster than the speed of light. Relativiity is not being violated here, as the beam of light is still travelling from the lighthouse to the wall at the speed of light. The motion of the spot is only an 'illusion' (no actual photons are travelling faster than light) as are effects due to group velocity.

Re:Links & a question

[p3d0]

I was JUST going to do the group velocity spiel. Thanks for saving me the trouble.

Re:Links & a question

[alienmole]

The motion of the spot is only an 'illusion' (no actual photons are travelling faster than light) as are effects due to group velocity.

That's more or less what I was saying, i.e. that group velocities exceeding c are essentially an illusion, but my question was how the researchers plan to use this "illusion" to, according to the article, "boost electrical signal speeds in computers and telecommunications grids by more than 50 per cent." That'd be a pretty good use of an illusion!

(BTW, afaict, no-one else replying to my message is even remotely coming close to answering the question. Any real physicists out there?)

Re:Links & a question

[femto]

Apologies, I misunderstood your question.

The short answer to your question is 'I wouldn't have a clue'!

I wonder if they are using some sort of a squeezed state? In a squeezed state, it is possible to temporarily 'violate' the uncertainty principle. The light is modified so there are periods of low uncertainty alternating with periods of high uncertainty. For short periods one can measure beyond limits predicted by the uncertainty principle, but the average uncertainty is still as predicted by the uncertainty principle.

Analogously they might be able to send some information faster at the cost of other information travelling slower, so the average signalling rate is still limited by the speed of light. Nothing to back this up, so it's only a wild theory.

Re:Links & a question

[alienmole]

Heh, your sqeezed-state idea sounds much more viable to me than the illusion theory of propagation speedup!

They're only saying that propagation speedups based on this might be possible, not that they've actually done it. Afaict, it's just a way of trying to position the research as being possibly related to something with a potential use, however remote. Previous experiments in this area have made similar claims, e.g. Lijun Wang's experiment. But I've yet to see a convincing explanation of how that speedup might be achieved, perhaps because no such explanation exists...

Physics and Frauds

[doublem]

Wasn't there just an article on frauds in physics?

Interesting...

[Transient0]

Can anyone explain to a non-physicist the implications of this sort of thing to Lorentz-Transformations, etc. I mean photons have energy and therefore mass and once accelerated past the speed of light wouldn't the mass and energy of said photon be several different shades of infinite?

Also, I can't help but mention a partially relevant comic: Prof Jack's Fun with Relativity

Re:Interesting...

This being slashdot, I'm sure someone will. Of course, whether you believe it or not is up to you. This place is infested with people who think that a bachelor's in engineering equals a PhD in physics. AKA Heinlein Syndrome.

Good for clocks, not for data

What everyone wants, of course, is to send real information around at that speed. As is repeated ad nauseum every time we have a FTL dicussion on /., that isn't what is going on here. You can't move real information faster than light by any method we know. So you cannot use this to reduce the latency between your chip and RAM. Because the receiving end doesn't know ahead of time what it is supposed to receive.

But this could be useful for the clock. Unlike bits moving to and from various places, there is no element of unpredictability and surprise in the clock. You just want to get a nice predictable thud seen everywhere on the chip in sync. This effect can be used to keep distant parts of a chip in closer sync. The pulse of the clock isn't real information, it is just staying in step.

Could it be used for AM communications?

[randomErr]

From the article: Signals also get weaker and more distorted the faster they go, so in theory no useful information can get transmitted at faster-than-light speeds, though Robertson hopes his students and others can now rigorously and cheaply test those ideas.

Obviously FM transmission would not be useful by this method. After the speed of light you would loose frequency integrity. But it maybe useful as an Amplitude Modulation(AM) medium where the frequency only has to be approximated.

Re:Could it be used for AM communications?

[bmwm3nut]

no, you still get into problems with the frequencies traveling at different speeds (dispersion). think of an AM wave, you have a set carrier frequency and then you modulate it's amplitude to convey the information. you can take a fourier transform of the wave to see the component frequencies. if you do this, you'll see a large peak at the carrier frequency, but there will be other smaller side peaks (side bands) in there too. if you only had one frequency present, all you'd get would be a sine wave which carries no information. you need to constructivley and destructively add waves of different frequency to carry information. once you have more than one frequency, you get into problems with phase velocity and group velocity, and no matter how hard you try, the information will not travel faster than the speed of light.

E=mc^2

Does this mean that I have to remove my e=mc^2 tatoo? Really?!?

Re:E=mc^2

[AyeRoxor!]

"Does this mean that I have to remove my e=mc^2 tatoo? Really?!?"

Even if the speed of light was somehow broken, it has nothing to do with E=mc^2. This just states that a small amount of matter has an incredible amount of energy (and all corollaries).

Energy=matter*speed of light^2

No matter what happens with light speed experiments, nobody can disprove a nuclear bomb :-P

Re:E=mc^2

[AyeRoxor!]

"Energy=matter*speed of light^2"

Oh, I also wanted to reccomend a great book on string theory, Elegant Universe. String theoryvirtually requires toe situation that all matter is actually tightly packed energy, in that matter and energy are not made of two different things. Check it out.

Re:E=mc^2

Crap!! I'm tired. I apologize for "String theoryvirtually requires toe"

String theory virtually requires the situation...

Re:E=mc^2

[TummyX]

m = mass not matter

Re:E=mc^2

"m = mass not matter"

True true, but symantics...

no way

[fredopalus]

Not as fast as me. I'm the speed-master. Just watch me get out of this seat [stands up], and RUN! [trips on shoelaces].......... [shoot]

ACM Technews

[blackcoot]

ACM Technews (for those of us who get it) also has an article about this here. Hrm... Wonders idly whether that spinning noise is Einstein in his grave...

Isn't this like the moving beam of light?

[ocie]

Imagine a rotating laser light source. If you had a laser beam that was rotating at only 2rpm, the beam would move across the surface of the moon at approx 1.7 times the speed of light, but you are not really moving anything (not even light) at more than c. You can't use this to transmit any information or power.

Re:Isn't this like the moving beam of light?

[spagma]

There is no limit to the speed of nothing.

Re:Isn't this like the moving beam of light?

The analogy does not hold.

Think of the laser more like a machine gun to see what I mean. (Particle part of light's wave-particle nature)

When you sweep the moon, you do not leave a solid contiguous marker trail. Instead, you leave bullet holes with gaps between them. The gaps are proportional in length to the differential of speed between the sweep and the speed of the bullets.

In other words, the laser is landing photons on the moon in such a way that they get there when they get there. Of course, they get there at the speed of light. And the "sweep" as an entity that moves is a fiction.

Re:Isn't this like the moving beam of light?

[Caffeine+Pill]

Which brings up the question of whether or not one would need headlights on a car that could go at the speed of light. My answer to that was always that you could use them, cut them on - wait a second and then accelerate. You're screwed if you turn though. Though, then again - you're probably screwed if you don't.

Re:Isn't this like the moving beam of light?

[mindstrm]

WEll say your car was going very near C. If you measure the speed of light coming out of your headlights.. it's STILL C.
It's relative, remember?

Re:Isn't this like the moving beam of light?

umm ... nope. The speed of light is not relative. It's constant (in a vacuum, absent all external forces (gravity and whatnot)).

Everything else is "relative". The speed of light is an absolute constant!

Re:Isn't this like the moving beam of light?

[Prof.Phreak]

But that's assuming like is particles. What if we treat light as a wave?

Re:Isn't this like the moving beam of light?

You don't need headlights. Even if, by some miracle, you manage to see something, you're not going to react in time.

I think that driving a car at the speed of light would be unsafe under just about any conditions where there's a ground to drive upon.

You need to read more Einstein. His example scenarios are much safer, because trains stay on rails.

Re:Isn't this like the moving beam of light?

DDDUUUUUuuuUUuUUuUUUUUuuuuuuuuUUUUUUH!

You don't get it. He meant you could turn your headlights on for a short while then turn them off. The light produced would stay (right) in front of you at C.

Get it? Funny!

Re:Isn't this like the moving beam of light?

[Caffeine+Pill]

Glad that someone was thinking carefully. =)

Re:Isn't this like the moving beam of light?

wrong.

Re:Isn't this like the moving beam of light?

[einhverfr]

There is no limit to the speed of nothing.

Yes, that limit is c (speed of light). And when you move nothing at c, you it attains a finite mass. THis is why photons have a finite mass and move at c, and theoretically no standing mass.

FOr those that want more info consider--

zero times infinity can be anything (zero and infinity are often limits rather than quantities anyway).

Take for example the limit of 1/x as x goes to infinity (1/x goes to zero). If we multiply this by x as x goes to infinity, the infinity (x as x goes to infinity) times zero (1/x as x goes to infinity) we get the limit of x/x as x goes to infinity. x/x always equalls 1 so this time it equals 1. But one can come up with other limits for zero and infinity which yield results of zero, any finite number, and infinity.

Now, the released by a quantum event should, iirc, be equal to some multiple of h (Plank's constant). Since h defines the minimum stepping point of energy (a quantum), it actually implies that we live in a digital rather than analog universe (sorry, Einstein-- also this makes an understanding of the Heisenberg Uncertainty Principle easier because the electron must be passing between discrete states, not in a continuous function) ;)

Now, on a quantum level, we can easily oberve the "breaking" of the "speed of light." These terms are in quotations because we cannot really say that "anything" aside from information is traveling, and we cannot say that that information passes through any points between where it starts and where it ends. I think that this will be the first application of quantum computing...

Re: this experiment, this is something different but similar in that a field is being accelerated faster than the speed of light rather than particles. Of course this presents, IMO, the illusions of particles being accellerated.

Re:Isn't this like the moving beam of light?

it is relative. If you and I are in cars, you going 100mph (you crazy nut!) and me going 30mph (must be awefully timid I guess), the light coming out our cars is C, regardless of which one is measuring which headlight. The light from my car is going C and your is going C, if you or I look. It would make no sense if not for the fact that time itself yeilds, changes rate so that C+70mph is rectified with the C it must be.

That is, where the light from your car "should" be going 70mph faster than the light coming from my car, the flow of time for you, from my perspective, slows down just enough to eliminate the additional 70mph my perspective expected.

god I love how wierd relativitity is... but quantum mechanics make it seem sensible in comparison. Isn't it grand that truth isn't just stranger than fiction, it's so strange it currently defies understanding!

Maybe there is a god after all, and it's a surrealist!

Re:Isn't this like the moving beam of light?

[buttahead]

You can't use this to transmit any information or power.

if you have sensors at 4 locations on the moon and move your laser in a quick rotation, they detect the light one after the other and in order. if the sensors were hooked to the same computer with cables of the same length and material, wouldn't the computer be receiving 4 chunks of data in a faster than light succession?

Does this mean that we can transmit data faster than light?

Re:Isn't this like the moving beam of light?

[ocie]

You might think so, but all you have done is send information from the earth to 4 different points on the moon at c. There is no way for someone at the first sensor to change anything about the light going to the second sensor. By the time the guy at the first sensor sees the beam pass him, the light that will pass the second sensor has already left Earth.

Re:Isn't this like the moving beam of light?

[barawn]

No - because the "we" in this case are on Earth, and it takes light-travel time to get to the Moon. The "shadow" is moving from one sensor to another faster than light, but the "shadow" doesn't have any real meaning to it.

Basically, your computer would receive 4 chunks of data in quick succession, and the time difference between the 4 chunks of data would be than the light-travel time between the sensors, but not the light travel time to Earth.. This is completely useless.

Re:Isn't this like the moving beam of light?

Who needs to react? If I'm travelling at c I have infinite mass... I say people and objects should get out of MY way... not like they'll ever be able to see me coming. I make an exception for black holes though.

Re:Isn't this like the moving beam of light?

[Wraithlyn]

So like, you create this "glob" of light in front of your car that travels along with you, and illuminates everything you come across?

Um yeah.. 'cept for the fact that as soon as the light DOES illuminate something, it's pretty much used up. (It will be absorbed by the material or the observer, or disperse)

Re:Isn't this like the moving beam of light?

[letxa2000]

... Although that won't matter much because after it illuminates something and is "used up" you, traveling at 'c' right behind the light, are going to smash on through it anyway.

Re:Isn't this like the moving beam of light?

[naasking]

Not quite. Your simplified explanation wouldn't explain why light emitted in the backward direction is also measured as c. You're thinking backwards trying to make sense of relativity and it leads you to the following problem: if time slowed just enough to offset the additional speed in the forward direction, then the backward direction should get a double boost, but it does not.

Re:Isn't this like the moving beam of light?

[777333ddd]

Why is this up at mod 5!? Was it a joke? What was the point? Ever spun around while watering the lawn? Is the water 50 feet from you traveling faster than that right in front of you? Of course not! It's traveling at the same speed relative to you. That's why the water stream looks curved. d

Re:Isn't this like the moving beam of light?

[isorox]

a persuasive argument, I'm convinced

GAH

[gclef]

Ye gods, I hate these types of stories. The real physics is always more subtle and interesting than the press makes them out to be.

The vast majority of the experiments I've seen like this (I've really only looked at photon tunneling, but this sounds *very* similar from the write-up) are explained by wave-shaping, and the side-effects of that, and are not actually FTL at all. But of course, that's hard to explain to people, so the New Scientist, et al, just go for the "Speed of light broken!" headline, which mis-leads everyone.

Grrr.

they're not REALLY breaking the speed limit....

[Narcocide]

it looks to me like they're using a trick of electron waveform properties by using the collisions between two opposing wavs to propogate signals faster than the electrons themselves are traveling.

Re:they're not REALLY breaking the speed limit....

that sounds like a great idea. they should check that theory out.

This article is so bad it's not funny.

[rsidd]

The "peak of the signal" (ie, the phase velocity) can travel faster than light -- big deal. It's been known for a long time. The "group velocity", as the article points out, is not faster than light, so no energy is being transferred faster than light, so relativity isn't being violated.

If you want to see a "thing" travelling faster than light, sweep a searchlight across a cloudy sky. That lit-up patch can, in principle, travel faster than light -- but it's not matter or energy, only an appearance.

And the last paragraph: "electrons usually travel at two thirds the speed of light". Wow, who needs particle accelerators?

What is a writer who can't distinguish the speed of electrons from the speed of the electrical signal doing writing for New Scientist? What is New Scientist doing publishing such crap?

Re:This article is so bad it's not funny.

What is New Scientist doing publishing such crap?

Ummm, that's what they do.

Re:This article is so bad it's not funny.

[DavidYaw]

And the last paragraph: "electrons usually travel at two thirds the speed of light". Wow, who needs particle accelerators?

You are correct rsidd. An electrical signal travels at very high speed (I've always used 1/2c instead of 2/3c as the average, but whatever...), but the individual electrons travel rather slow (a couple hundred meters per second is typical, IIRC).

Re:This article is so bad it's not funny.

[Mithrandur]

In my admittedly limited experience with New Scientist, I have found that the only thing they publish is this crap. All of their articles are some combination of poorly informed, poorly written, inaccurate and over-hyped. Frankly, if I were filtering through article submissions, I would ignore anything coming from New Scientist. If it's actually important, someone else will write it up, and their article will be better written.

Re:This article is so bad it's not funny.

[teece]

The article is interesting, but really only to physcis students with a no budget for interesting experiments.

As for that "electrons usually travel at two thirds the speed of light" nonsense, who is the editor?

I have calculated the drift speed of electrons myself (you could too, it isn't hard). It depends on a couple factors, but the normal US 120V circuit humming along at maximum capacity (15 A) has an electron drift speed along the wire *orders of magnitude* lower that 2/3*c. I don't remember the exact number, but it was something likt 6 CM per hour! Eg, a snail moves faster.

The e/m field propation is at the speed of light, not the electron motion. Perhaps he didn't meant drift speed. Individual electrons can and do move much faster, but their paths are quite random, in all directions. The aggregate speed comes out very low.

Tim

Re:This article is so bad it's not funny.

[mborysow]

If I'm not mistaken... Drift velocity of electrons in a DC current is only like.. on the order of millimeters per second.. Very very slow. Michael Borysow,

Re:This article is so bad it's not funny.

[Fatllama]

You're correct. The electrons aren't moving at 2/3 c at all. Drift velocities in metals are actually very slow (cm/s). However, voltage signals move at about 60% the speed of light (in a vaccum) through coax because of the dielectric material between the conductors.

Re:This article is so bad it's not funny.

[james_underscore]

"electrons usually travel at two thirds the speed of light"

Unless its an AC circuit of course, where they normally travel at an average of 0mph. These electricity companies are ripping us off.

Re:This article is so bad it's not funny.

[sydbarrett74]

>What is a writer who can't distinguish the speed >of electrons from the speed of the electrical >signal doing writing for New Scientist? What is >New Scientist doing publishing such crap? In terms of journalistic calibre, New Scientist falls somewhere between the National Enquirer and Popular Science.

Re:This article is so bad it's not funny.

[rtaylor]

Not only that, but they keep getting investments because of their potential.

Re:This article is so bad it's not funny.

How fast do electrons move in their orbits?

Re:This article is so bad it's not funny.

[SIGFPE]

I'm sure I once heard a story about people who used to steal electricity by drawing power only during the AC peaks and valleys and that meters used to be unable to detect this. Maybe someone else can confirm or deny this.

Re:This article is so bad it's not funny.

[doorbot.com]

In my admittedly limited experience with New Scientist, I have found that the only thing they publish is this crap.

Kind of like that "new economy" where earnings don't matter and HTML programming makes you a computer expert?

Re:This article is so bad it's not funny.

[aaarrrgggh]

I think what you are referring to is negative sequence loads.

When you have high negative sequence currents (5th, 11th) it can spin a motor (or disc-type meter) backwards. This is usually a problem when people have large half-wave rectifiers.

(In contrast, any UPS or VFD will only take power at the crests, and as long as the harmonics aren't really bad, the meter reads fairly accurately.)

Re:This article is so bad it's not funny.

[p3d0]

Electrons don't move in orbits. That's SO 19th century.

Re:This article is so bad it's not funny.

[jelle]

Kind of like that "new economy" where earnings don't matter and HTML programming makes you a computer expert?

Yeah. Just like where typing in html content and layout is called programming...

Re:This article is so bad it's not funny.

> electrons usually travel at two thirds the
> speed of light

Argh! What a dumb article. Electrons in
conductors usually move at miniscule speeds.
A signal typicall moves at 1/2 to 2/3 of c
in a suitable transmission line, but the
electrons themselves have a "drift velocity"
that is a very small fraction of a furlong
per fortnight.

So, if you're pushing the ping pong balls
down the tube, the ball pops out the other
end delayed by 2/3c+-, but the balls go in
and out of the tube at mm/mo.

Re:This article is so bad it's not funny.

[muffel]

From a fortune cookie:

But Edison's greatest achievement came in 1879, when he invented the electric company. Edison's design was a brilliant adaptation of the simple electrical circuit: the electric company sends electricity through a wire to a customer, then immediately gets the electricity back through another wire, then (this is the brilliant part) sends it right back to the customer again.

This means that an electric company can sell a customer the same batch of electricity thousands of times a day and never get caught, since very few customers take the time to examine their electricity closely. In fact the last year any new electricity was generated in the United States was 1937; the electric companies have been merely re-selling it ever since, which is why they have so much free time to apply for rate increases.

-- Dave Barry, "What is Electricity?"

Re:This article is so bad it's not funny.

[SIGFPE]

When I did a google search on "negative sequence loads" I got one hit. This must be seriously arcane knowledge!

Re:This article is so bad it's not funny.

[aaarrrgggh]

A better search would be negative sequence power

Some pretty good info. It was more important five or ten years ago, when non-linear loads were appearing in droves. Most equipment has better regulates its harmonics now.

fp!

fp!

Reminder of what ``c'' really is

Just a quick reminder that ``c'' and "the speed of light" aren't exactly the same.

``c'' is the speed of light in a vacuum at a temperature of absolute 0, and it is a constant. Guess what? Alter the temperature or remove the vacuum, and it's not ``c'' any more.

Bill Nye the Science guy is rolling in his grave over CmdrTaco's stupidity.

Re:Reminder of what ``c'' really is

Bill Nye the Science Guy is dead?!

c is for cookie, thats good enough for me.

Re:Reminder of what ``c'' really is

[Noren]

Temperature is meaningless in a true vacuum. What do you define its temperature as? How do you alter the temperature of a true vacuum?

Re:Reminder of what ``c'' really is

[pclminion]

Temperature is meaningless in a true vacuum

No it isn't. Empty space can contain energy in the form of a field. The presence of an electromagnetic field within a region gives that region a "temperature" in some sense of the word -- there is a nonzero energy density.

For example the space between two capacitor plates can contain energy (in the form of an electrostatic field) even though no matter is present there.

Re:Reminder of what ``c'' really is

[Noren]

Okay, you have a point for a modified definition of temperature. I'm used to using a thermodynamic definition of temperature.

On the other hand, you can put as much energy as you like into a magnetic field in a vacuum and light travelling parallel to that magnetic field will still travel at c. In other directions it will be slowed, however.

Re:Reminder of what ``c'' really is

Bill Nye isn't dead.

Re:Reminder of what ``c'' really is

``c'' is the speed of light in a vacuum at a temperature of absolute 0

If there's a photon present, you're not at absolute 0.

Relativity

[jmoriarty]

When I went through all my college Physics classes I thought I understood the speed of light. Not that Stephen Hawking had anything to worry about, but I felt I had enough of a handle on what it meant to not sound a complete sod in a conversation.

So now 10+ years have crawled by, and I realize I must not have had any sort of inkling about the damned thing. They've gone faster than light, stopped it, and turned it into tapioca. If anyone tries to talk to me about this topic anymore, I'll just nod quietly and change the topic to something less elusive... like religion.

Bah.

Re:Relativity

[chris_mahan]

The resulting tapioca would of course not be fat-free, but at least it would be light.

Ahem...

I'll go drink more coffee before I hurt myself.

Re:Relativity

+2 funny points for... uh SHIT! Still in Slashwhat! how do I leave this place ??? HELP!!!

Phase vs. Group velocity

[Mendenhall]

Here comes this problem again. The article explains it, but buries it at the bottom.

What the group has attained is a transmission line with a phase velocity greater than the speed of light. This is actually not too hard to do with a resonant line (which they have), but they have constructed a cute, cheap way to demonstrate it. The group velocity, which is the speed at which information moves, is still less than c, and they explicitly say so.

The best use for a setup like this is to bring a good demonstration of the difference between the two to an undergraduate laboratory setting, to hammer into students forever the importance of the difference.

Re:Phase vs. Group velocity

[m.dillon]

Right, but it's slightly more complicated then that. What is really going on is that the nearly resonent wave is interfering with the signal wave, canceling out the stretching effect you get. That is, different frequency components of any EM wave will travel at different velocities with the fastest component going near the speed of light. So the information packet stretches as it goes down the wire. Conventional electronics cannot predict the entire wave from just the fastest component but the universe can as a quantum mechanical effect. You can't pass information without multiple frequency components (even just changing the phase will temporarily create additional frequency components, which stretch). In anycase, since conservation of energy is required by the universe (at least so far), the canceling out of the slower components of the wave causes the energy associated with those components to accumulate in the faster components of the wave. These faster components happen to be moving at near the speed of light so, overall, you wind up with a non-attenuated (or less attenuated) signal at the far end whos entire contents reaches the far end at near the speed of light.

Now the complication: you cannot simply create a resonent wave to cancel out the slower components at point X because you do not know what those slower components are at point X (they haven't arrived yet). But since the signal itself knows (quantum mechanically speaking), you can use reflections of the signal itself, at near resonence, to cancel out portions of itself which have not yet arrived. Confused yet? The result is that the cancelation gives the whole signal 'a push'. This cancelation effect appears to move faster then the speed of light because it is canceling a wave that has not yet arrived. This is the phase velocity they are talking about I think. but it is only using information that has traveled at the speed of light (quantum mechanically speaking the universe only needs the leading edge of the attenuated signal to know the whole signal), so there is no way this technology could be used to actually achieve FTL data transfer.

This is for real, a number of universities have been working on it for years. How useful it winds up being in the end is a matter of opinion, though.

-Matt

Re:Phase vs. Group velocity

[gowen]

The best use for a setup like this is to bring a good demonstration of the difference between the two to an undergraduate laboratory setting, to hammer into students forever the importance of the difference.

But there are already loads of simple ways to do that with water waves (in stratified fluids, for example). And rather more obvious too, since the phase and group velocities are perpendicular in that case, and you can do it with kit that costs about 5 bucks.

4x FTL?

[bytesmythe]

Electric signals can be transmitted at least four times faster than the speed of light...

This is known because researchers observed the results of the experiment a month before it was actually attempted.

At first, they were confused by their output terminal spewing phrases like "Hello world!", "Is this thing on?", "How can we tell if it's working??", "What's WRONG with this FSCKING THING??", "FSCK IT! I'm going home!!!" late last month. Earlier this week, one researcher was sending keyed kignals into the system, and becoming frustrated at the lack of output, until he and a colleague accidentally picked up a stack of printed logs from 4 weeks ago and discovered the system had worked before it had been turned on.

Neither researcher could be reached for comment, as they both suddenly became multi-quadrillionaires and are living on private islands in the South Pacific.

Re:4x FTL?

[Methuseus]

Why does everybody assume this has something to do with time travel? it sure as hell doesn't since it is electrical components sending info across a space

Re:4x FTL?

Because whenever someone says "FTL" someone else will make a joke about time travel for some reason.

Re:4x FTL?

[de+Selby]

Because if something were to really go faster than light in every way, it would have to go back in time.

Not really

[doug_wyatt]

If I recall correctly from 6.313 (Tom Knight's Contemporary Computer Design Course), signals can appear to travel faster than the speed of light, but leading edges of frequency changes cannot, so information still obeys the speed limit (well, leaving aside quantum partical physics games).

No information can be spread faster than light...

[f97tosc]

...according to Einstein's laws. This is actually stated later in the article, but it deserves a more prominent position.

What these people have done is (at best) to spread information at sub-light speeds that are faster than they were before.

Certain types of waves can seem to go faster than light, but this is not really information that is being spread. For example, if two long beams are crossing at a small angle, then the intersection can move faster than light - but information can't.

Tor

Not much pratical use

[cybergibbons]

Information transfer is essentially energy transfer. It is possible to make something change in response to something at the other end of the coax faster than the speed of light, but at the end of the day no information can be transfered.

So, in my opinion, this isn't going to make those electrons in your computers and comms links move any faster.... oh well.

Re:Not much pratical use

So lemme get this right.... information transfer is energy transfer... so information equates to energy... and E=MC^2... so information is setting us up the bomb ?
When we reach a critical mass of information the world explodes ?
No wonder the RIAA's so pissed! :)

Re:Not much pratical use

[cybergibbons]

Why the fuck do people use e=mc^2 to prove everything? Information transfer is an energy transfer. There is no other way about this. Everything involves energy transfers. What the fuck has this got to do with the world exploding? And yes, information actually does have quite a lot to do with energy. You really are quite dumb aren't you. Better to be silent and be thought stupid than to speak and be known to be stupid.

The "giant scissors" analogy

[tootingbec]

Imagine an enormous pair of scissors, many light-years on a side. Now imagine opening and closing the blades. The spot where the two blades come together might well travel faster than light, since it is not a physical object...it's simply a point in space. It also doesn't bear any information, since its location at any instant is just a matter of computation. IANAP, but I take it that the story here is the same kind of thing. What's traveling fast here is the peak of the pulse, not the electrons in the pulse itself. Because this pulse will bear information (unlike the intersection point of the scissors), it is limited to the speed of light.

Re:The "giant scissors" analogy

Ah, but that's not what happens - the scissors *bend*, and the contact point is limited to the speed of light.

---8---cut-here---

Re:The "giant scissors" analogy

No. A better example would be quickly sweeping a laser (by swinging it in a 90 degree arc, say) across a wall several light years across. The spot on the wall can move faster than the speed of light.

Re:The "giant scissors" analogy

I'm pretty sure the speed of propagation of a shock wave through the scissors is slower than the speed of light, so no points for that analogy.

Remember, there is no such thing as a rigid body, otherwise faster-than-light interactions would be possible.

Re:Electrons travel at 2/3 c in wire -- WRONG

YEeh, a wire in open air is pretty close to c, but most wires are in circuits with lots of copper around, and usually the speed is at .6 to .8 c.

huh???

[RedWolves2]

What is Off Self Components?

Is this a new section at Radio Shack I don't know about?

Re:huh???

You mean the stuff that fell off the shelf into the manager's discount bin ?

Looks like our ole group speed

[vojtech]

This looks like a group speed of interfering waves - while this can be greater than c, it cannot be used to transfer information, and thus this all is a nice albeit quite useless experiment.

See any basic electromagnetic field theory for a better explanation.

Re:Looks like our ole group speed

I've wondered what was so great about having interfering waves move faster than c. This sounds much like an older article...

Re:No information can be spread faster than light.

then lets say that we send information as intersections.. duh!

yeah but i'll be an old man...

[evacuate_the_bull]

Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms. Hache says it may be possible to send usable electrical signals to near light speed.

Yeah but I'll be an old man by the time they reach me to power my computer!!!

Re:yeah but i'll be an old man...

[jcronen]

Not to be anal here, but electrons themselves travel EXCEPTIONALLY slowly in wires. Calculating drift velocity of electrons is a good student experiment in first-year electricity and magnetism.

If my memory recalls, drift velocity (for some reasonable values of conductance, etc), is somewhere around a millimeter per second.

The electrical potential difference is what travels at or near the speed of light, which is why there's an imperceptable difference between flipping the light switch and the light switch turning on.

Related Stories

[RedWolves2]

Did you see the related stories associated with this article?

Related Stories

Black hole theory suggests light is slowing
8 August 2002

Light may have speeded up
15 August 2001

So which is it light is speeding up or slowing down???

Re:Related Stories

[autocracy]

It's like a weather forecast... slow light today, fast light tomorrow, and spotty bursts on Wednesday!

Re:Related Stories

[nervous_twitch]

When you read the article for the "Light may have speeded up" link, the title of the article is "Light may have slowed down" instead. Plus the date is 1 August 2001, not 15 August 2001. AND, the Black Hole theory article is dated 2 August 2002

Slashdot is taking news from this site?

The end is truly near.

Einstein looks like he's gonna cry

[IIRCAFAIKIANAL]

With a headline like "Speed Of Light Broken With Off Shelf Components" I can see why.

For shame!

OK someone tell me if I've got this right...

[kmac06]

From what I understand, the electrical signals interfere with each other, causing a peak in the signal ahead of where the signal itself is? Or something like that? But isn't that interference radio waves, and don't radio waves travel at the speed of light? So how does it end up going faster? I'm confused... And where do you get an oscilloscope (sp?) that can measure into the billions km/hr for less than $500?

Re:OK someone tell me if I've got this right...

[kyoorius]

I do remember something back in college about how transverse waves can travel faster than light.

Imagine if you had a really LARGE pair of scissors, and the velocity you're measuring is the point at which the two blades meet when the scissors open and close (note: the meeting point is not a physical object, just a reference point - but this point could represent an electronic signal just the same).

If one were to open and close these really large scissors very fast, none of the atoms would be travelling faster than the speed of light, but the point of reference could easily exceed that.

50 per cent

If I can get 50 per cent, imagine how many I can get for a dollar

*rimshot*

2 billion pound photon

[Transient0]

Where 2 billion=arbitrarily large

On re-reading the article and a couple of links posted by a thoughtful reader, I now understand why there is no problem with infinite mass. It's worth noting that NO MATTER OR INFORMATION actually exceeds the speed of light in these experiments. Therefore it is thoroughly impossible to use these methods for faster than light communication.

I still recommend checking out the comic.

Note: overall speed is not faster than light

[Nynaeve]

Here's my take on the story:
Only the peak of the signal was propagated faster than the speed of light. Actual information cannot travel faster than the speed of light. For example, imagine that a bicycle is an atomic piece of information (that is, it is only useful when completely assembled). If you dissasemble the bicycle into several parts, then the front wheel (or any individual part) may travel over a distance faster than the speed of light so long as the average speed of all the components is less than the speed of light. Obtaining the transmitted information is equivalent to re-assembling all of the separate parts into a complete bicycle.

Re:Note: overall speed is not faster than light

And lo... so was transporter theory born unto the human race. Take everything to bits at ludicrous speed. Transmit at ludicrous speed. Reassemble at ludicrous speed. :)

Headline is misleading,

[jpegNY]

but that's not a surprise.

Selling a bridge?

[andika]

Today I found this 'selling a bridge' twice, and I can't understand what it means. Is it an idiom?

I use dictionary.com as my main online dictionary, but up to now, I haven't found a good idiom reference online. Any suggestions?

Re:Selling a bridge?

[badboy_tw2002]

Common saying in US: You could con someone that gullible by selling them the Brooklyn Bridge. He's saying if you believe the story, you'd believe anything.

Re:Selling a bridge?

[MedManDC]

Here's a good idiom resource: Wayne Magnuson: English Idioms. Unfortunately, the bridge selling idiom is not there.

Basically, it means that if you believe that story, you'll believe anything, as in "come to me because I have a bridge (sometimes the Brooklyn Bridge) I want to sell you."

Re:Selling a bridge?

[grytpype]

"Selling the title to the Brooklyn Bridge" is a proverbial fraud.

Re:Selling a bridge?

[nelsonal]

If you didn't get it already, there was a scamster in turn of the century new york who would attempt to sell the Brooklyn bridge to immigrants who had usually just landed in America, and believed that the opportunity was so vast here that they could actually buy the bridge. It has entered the lexicon as the proverbial scam. Although some parts of the country now prefer swampland in Florida. I think that is a more recent scam involving extremely cheap land in Florida that happened to be located in the middle of the everglades swamp, which meant it was worthless, unuseable, and quite likely not yours.

Re:Selling a bridge?

[Huogo]

When people used to immagrate over here, people would try to sell them the Brooklyn Bridge. You had to be pretty stupid to believe you could buy a bridge, but some people fell for it, and that is where the saying came from.

Re:Selling a bridge?

[gilroy]

Blockquoth the poster:

Although some parts of the country now prefer swampland in Florida. I think that is a more recent scam involving extremely cheap land in Florida that happened to be located in the middle of the everglades swamp

Of course, given recent history, the latest scam involving Florida is buying not swampland but elections. And it only costs you five justice's robes...

Re:Selling a bridge?

[pthisis]

Of course, given recent history, the latest scam involving Florida is buying not swampland but elections. And it only costs you five justice's robes...

Oh, come on, that's so old news. It's not even the most recent Florida election count mishap.

Sumner

Re:Selling a bridge?

[netglen]

Cold Fusion?

Re:Selling a bridge?

[susano_otter]

The contemporary version would be, "If you believe that, I've got a dot-com startup[1] for you to invest in". ========== [1] Or possibly a major energy company, a famous Internet backbone provider, or a new transuranic element.

Re:Selling a bridge?

"I've got some land in Florida I want to sell you!"

"We're from the government, we're here to help you."

"My Microsoft system has been on for 43 days with no reboot."

"65,000 laws, just a few hundred more and it'll be just perfect!"

Here's a web based app for calculating

light speed in various materials.
here.

You know light speed varies depending on materials and wavelength, and it's possible for a particle to exceed LOCAL light speed. This gives off Cerenkov radiation, like nuclear reactors in water, the particles that hit the water exceed local c, and give off a blue glow.

No signal faster than light

[mocm]

Just to get some things straight:
Although it is possible to define and even measure speeds faster than the speed of light in vacuum, you cannot transmit signals with a speed faster than light.
You can have electrons faster than the speed of light in a certain medium, that's when you get Cherenkov radiation.
You may think tunneling can give you speeds faster than light, but that's only possible for a part of the particles that tunnel and on average you won't be faster. Since you don't know which particle is going to be faster, no increase in signal speed.
You may even see that the peak of a signal arrives faster, but that is only because the whole shape of your signal is changed and amplitude of your signal is reduced, so that the peak moves forward during the tunneling process. There is no way that
the signal front is faster than light.
The experiment is interesting in so far that it gets you closer to the speed of light which is your limit.

believe

I'll believe it when I see it and not a second sooner. Unless I can travel back in time and see it a second earlier! If it's true its great but their are to many bs artists in the world and especially in academia. Just because you have a phd it doesnt mean that you arent a liar or a crook, or a bolshevik, but I digress.

No matter faster than light

[foolip]

Keep in mind that no single electron is moving faster than light. That would conflict with Einsten's theory of relativity since an electron has mass and accelerating any mass to the speed of light requires infinite (not a lot, infinite--hence impossible) energy. It is the signal itself (the wave) that is moving at speeds faster than light. Compare (Actually equate) this to the movement of electrons in any cable. While the signal may get from your soundcard to your headphones instantaneously the individual electrons require a long time (minutes, hours: depending on the current) to go from one end of the cable to the other.

This explains Comcast's new pricing structure!

[Lawst]

Quote Signals also get weaker and more distorted the faster they go, so in theory no useful information can get transmitted at faster-than-light speeds

Comcast Broadband Pricing:
Warp 9 Broadband - $4.99/month
56K - $69.99/month :)

A physics grad student says. . .

. . . that this is nothing new at all. As they say in the article, no energy gets sent faster than light. It's just a pattern of interfering waves. Nothing spectacular at all.

It's analogous to this:
A (strong) flashlight is pointing to a screen very far away.
When you put your hand in front of the flashlight, the shadow that your hands casts is thus hugely magnified - say 100 million times.
Thus, you can move your hand at a non-relativistic speed, like 4 meters per second, but the magnification causes the shadow to move *faster* than the speed of light - in this case, 4x10^8 meters per second.

This is OK, because the shadow doesn't carry any energy or information. Nothing here violates causality.

Admittedly, I don't know how the authors of this article expect to get taken seriously coming out quickly with claims of FASTER THAN THE SPEED OF LIGHT!

Sections worth reading...

[Chagatai]

While the peak moves faster than light speed, the total energy of the pulse does not. This means Einstein's relativity is preserved, so do not expect super-fast starships or time machines anytime soon.

and...

Signals also get weaker and more distorted the faster they go, so in theory no useful information can get transmitted at faster-than-light speeds, though Robertson hopes his students and others can now rigorously and cheaply test those ideas.

Well, if you had this hooked up to some sort of computer network, all it really looks like you'll be able to do is smurf someone at 4 billion km/h.

A guy in Arizona bought the London bridge....

[Desmoden]

many years ago even though it was falling apart (which is why the brits were selling it).

Re:A guy in Arizona bought the London bridge....

[pivo]

Actually, I think the saying had to do with a scam involving the sale of the Brooklyn bridge. A bridge which was not actually for sale.

Re:A guy in Arizona bought the London bridge....

[perlyking]

Not quite.. the thing is not that it was falling down but that the guy thought he was buying Tower Bridge.

Re:A guy in Arizona bought the London bridge....

[RatFink100]

This wasn't so much a fraud as a misunderstanding.

The guy bought 'London Bridge' and shipped it, brick by brick to Arizona where it was rebuilt exactly as it was.

However I think he thought he was buying Tower Bridge which is the one you've probably seen in postcards.

Neither has fallen down as far as I know. That's just a kid's rhyme.

Re:A guy in Arizona bought the London bridge....

Not that it's important, but back a long time ago, 19th century I think, London Bridge was heavily built up with houses and shops, and had become very unstable with age. Hence the childrens rhyme, since it seems quite likely that it would fall down. That bridge was eventually torn down and replaced with a new one, which was later shipped to Arizon, as mentioned above.

Re:A guy in Arizona bought the London bridge....

[RatFink100]

Ah I always wondered where that came from. Thanks

Re:A guy in Arizona bought the London bridge....

> many years ago even though it was falling apart (which is why the brits were selling it).

The first stone London Bridge was started in 1176 to replace the previous wooden bridge.

There is a Norse Saga in the Olaf Sagas by Ottar Swarte commemorating the Viking raids on London in 1014 that starts:

"London Bridge is broken down,
Gold is won, and bright renown."

which refers to the wooden bridge of that time.

The one in Arizona is 'New London Bridge' started in 1825 and opened in 1831 and built a couple hundred yards upstream of the old bridge.

Not only did McCulloch not get Tower Bridge, which he thought was being offered, but he didn't get the one that was 'falling down' or the one of the middle ages that was built on with 'Nonesuch House', 'Bear Tavern', 'Great Stone Gate', and others.

At the foot of Fish Street Hill, in front of St. Magnus Church, there is still a piece of the 1176 bridge

Re:A guy in Arizona bought the London bridge....

The London Bridge is now in Lake Havasu City, Arizona, to be exact. I have been there. LHC is a popular spring break hangout for college kids.

Re:A guy in Arizona bought the London bridge....

Over the last couple of thousand years there have probably been a few bridges known as London Bridge. Some of them might have fallen down.

Re:A guy in Arizona bought the London bridge....

[Mr+Guy]

The London Bridge has fallen down several times. I believe twice by fire, and once by poor contruction. The phrase, however, comes from people selling BROOKLYN bridge in scams to gullible BUSINESSES with forged documents proving their ownership. The idea was to trick the greedy business into thinking they could charge tolls if they had documents proving they bought the bridge.

Re:A guy in Arizona bought the London bridge....

[xchino]

Actually a guy in Arizona bought A bridge, not the london bridge. And they didn't sell it to him because it was falling apart, they sold it to him because he was going to pay alot of money for a near worthless bridge.

DMCA

[athakur999]

Aren't they inviting a lawsuit from God by publishing this? The restrictions regarding the speed of light are there to protect God's IP. By sharing the knowledge of how to get around these restrictions allows anyone to create their own Universes, which clearly violates patent #000000000.

This is old hat

[LenE]

it may be possible to use this reflection technique to boost electrical signal speeds in computers and telecommunications grids by more than 50 per cent. Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms. Hache says it may be possible to send usable electrical signals to near light speed.

Apple already does this stuff for their Faster Than Light(tm) G4 Processors.

Oh wait, take that back. They removed that line.

-- Len

Peer review time?

[Anixamander]

This one may not stand the test of peer review. If you read the article, you'll note that the apparatus used was a maglite, a mirror and a stopwatch, with all results certified by Victor Ninov.

Re:Peer review time?

[IIRCAFAIKIANAL]

Uh Oh - this whole Victor Ninov thing is going to result in his name becoming a verb

"Jeez, you really Ninov'd those results!"

I hate it when that happens

Re:Peer review time?

[isorox]

Uh Oh - this whole Victor Ninov thing is going to result in his name becoming a verb

I hate it when that happens

You're safe, no one will say "I IIRCAFAIKIANAL'd those results

use a laser

[g4dget]

Shine a laser at a mountain a hundred miles away and rotate at modest speed--the spot of light will move faster than light. From the fluffy description in the New Scientist, it sounds as if they roughly did an electrical version of that--what moves is something you construct in your mind, not anything tangible or anything you could use to "send signals faster than light". And, unlike the "complicated setups" they are referring to, their effect is purely classical.

Re:use a laser

[Nate+Eldredge]

Well, only if you consider 18000 rpm a modest speed. But yes, that idea works.

Re:use a laser

[Skapare]

With enough people lined up across a big country, with very accurate clocks to know when to do it, they can raise and lower their arms to create a wave that goes faster than the speed of light. But this doesn't mean anything. Suppose you have 2 people at each end of town (assuming a big enough town ... 1 km is plenty) doing it, and they do it a microsecond apart. Does that mean something traveled faster than the speed of light? No. They just timed things well. If you stand near the person doing it late, you see them first and the other next. Does that mean time went backwards? Of course not. It just means your "order of influence" is reversed because of your position.

Set up a series of ham radio beacon transmitters spaced at intervals greater than 187 miles (300 km), syncronized in time to better than a microsecond, scheduled to transmit a half millisecond RF burst at one millisecond intervals going from east to west. Give each a slightly different frequency. The listener at the west end will hear the pulse from the closer one first then progressively from the more distant beacon. Time still didn't go backwards.

Re:use a laser

[johnty]

this idea is simply not true. think about a lighthouse in the middle of a cynlinder - the bigger the cynlinder, the faster the light moves around it provided the lighthouse is spinning at a constand speed. if you make the cynlinder indefinately large, does the light travel at infinite speed along the walls? no - eventually the light will curve, and even spirall - just like a water from a hosepipe.

Re:use a laser

[jareds]

this idea is simply not true. think about a lighthouse in the middle of a cynlinder - the bigger the cynlinder, the faster the light moves around it provided the lighthouse is spinning at a constand speed. if you make the cynlinder indefinately large, does the light travel at infinite speed along the walls? no - eventually the light will curve, and even spirall - just like a water from a hosepipe.

While it is meaningless to talk about an infinitely large cylinder, the speed of the spot of light will be directly proportional to the size of the cylinder, and can therefore be increased without bound. The beam of light will, of course, curve and spiral, but this has no bearing on the speed of the spot of light.

Not Really Useful

[yelligsc]

While the peak moves faster than light speed, the total energy of the pulse does not. This means Einstein's relativity is preserved, so do not expect super-fast starships or time machines anytime soon.

Signals also get weaker and more distorted the faster they go, so in theory no useful information can get transmitted at faster-than-light speeds, though Robertson hopes his students and others can now rigorously and cheaply test those ideas.


So, 1) we still cant move faster than light and 2) Its not even usable to send real signals.

Way to go guys! Why dont we just have a big party with the grant money instead?

Scott.

Practical Use

[boatboy]

Somebody pointed out that this may not be practical for electronics because of the overhead needed to sync the two signals. It seems like the most practical use would be in communicating over extremely long distances. Your overhead would be made up in the time you save transmitting the signal. If you could do this, somehow, without the cable, it could reduce lag time between, say, earth and mars.

Who are you scolding?

[Catskul]

I hope you arent scolding the /. editors for this, because if you look at the article it has an almost identical headline.

Speed of light broken with basic lab kit

Re:Who are you scolding?

[MrNally]

Oh... I think the slashdot editors could use a little scolding on this one.

1) Everyone knows the c limit for information transmission. (Hands up those of you that don't know this.)

2) In the unlikely event that the speed of light had been broken (which while I'm sceptical about happening, I'll leave it open as a possibility) the editors ought to be using the principle that 'extraordinary claims require extraordinary evidence.' Not doing so risks my readership. Sensationalism is just a waste of time.

3) If the speed of light is ever broken, slashdot isn't going to be given much credit for breaking the story first, so why don't we start asking more of the editors?

Re:Who are you scolding?

[alkali]

Dinosaur-like animals discovered in United States: film at 11.

Re:Who are you scolding?

[rajinder]

Sensationalism is just a waste of time ...and you still read slashdot *why*?

FRAUD!

This is a fraud - I just took some equipment off my shelf, and I can't duplicate these findings!

Speed O light, Schmeed O light

[duncanIdaho.clone()]

Seems trivial when compared to this other New Scientist story

Re:Speed O light, Schmeed O light

[SofaKingdom]

ROFL! Great article! "They have to use a type of bicycle pump to eject the sperm into the female," Seviter says.

From the same state

[George+Michael]

...that brought you perpetual motion last week.

I can just see Roscoe P. Coltrane throwing his hat in the dirt and spitting, as the Duke boys go flying by on their faster-than-light car running on perpetual motion technology.


Beats all you never saw,
never followed natural law
Since the day they was born..

Re:Electrons travel at 2/3 c in wire -- WRONG

"While the instantaneous speed of electrons..."

Wow, didn't take you long to prove your ignorance.

breaking the speed of light

[slavemowgli]

Just as a minor bit of nit-picking, breaking the speed of light itself is something that is neither new nor difficult to do (and in fact, you don't need to spend 500 USD on equipment for this, either) - it just gets difficult when you actually want to transmit information.

Deceptive title

[Hoi+Polloi]

What is Slashdot going to do next? Post an article titled "WIN FREE SEX"?

Re:Deceptive title

[MyHair]

What is Slashdot going to do next? Post an article titled "WIN FREE SEX"?

Well, okay, but I need a bigger penis and some cheap Viagra substitute first.

Re:Deceptive title

[then,+it+was+nigh]

What is Slashdot going to do next? Post an article titled "WIN FREE SEX"?

Which, around here, would be misread as "Windows-free sex", leading to at least a dozen variations of jokes involving BSODs and being "rooted".

Re:Deceptive title

[dirtyhippie]

Dude, don't mod this guy down, mod him up, he's right on.

The article is talking about "faster than the speed of electrons", whilst the title claims "faster than the speed of light". Two totally different things. This is clear even from the short description (ie w/o reading the article), and alot of the responses here make it clear the person only read the title (or didn't understand the rest).

Nitpick

[Planesdragon]

If you want to see a "thing" travelling faster than light, sweep a searchlight across a cloudy sky. That lit-up patch can, in principle, travel faster than light -- but it's not matter or energy, only an appearance.

You're using an assumption that always bugs me.

Let's say, for example, that I've got a 1 AU (about 8 light-minitue) long indistructable rod and I'm out in space. I push the rod. Common sense says that the far tip of the rod moves at the same time I move the near tip. But that'd break the speed of light; forgetting about inertia for a moment, it'd take at least 8 minutes for the rod to move after I push the near end.

If I have a powerful laser out in space that points out to 1 AU, and a spin it 180 degress, the "spot" of light doesn't move; light just starts moving out at c in the opposite direction.

Yeah, and that's probably not what you meant... but it's bugged me ever since High School.

Re:Nitpick

>I push the rod. Common sense says that the far tip of the rod moves at the same time I move the near tip

You're assuming that the rod is a rigid object which isn't deformed - but it isn't. If you push one end, the compression travels through the rod at the speed of sound.

Now, what IF the rod was really rigid, stiff, incompressible? THEN you'd have a problem. By this argument it is shown that the abstraction of a rigid object breaks down in relativistic physics. In other words, rigid objects do not exist.

Re:Nitpick

[jareds]

Let's say, for example, that I've got a 1 AU (about 8 light-minitue) long indistructable rod and I'm out in space. I push the rod. Common sense says that the far tip of the rod moves at the same time I move the near tip. But that'd break the speed of light; forgetting about inertia for a moment, it'd take at least 8 minutes for the rod to move after I push the near end.

If I have a powerful laser out in space that points out to 1 AU, and a spin it 180 degress, the "spot" of light doesn't move; light just starts moving out at c in the opposite direction.

If you define the "spot of light" as "the area illuminated by the laser," and "to move" as "to change location," the spot of light most certainly does move. 8 minutes after you turn the laser, it will move across whatever you're illuminating at a speed exceeding that of light. I don't know what else you could possibly mean by "spot of light" or "move." Of course, this does not violate relativity at all.

Re:Nitpick

[alienmole]

I'm not clear on what exactly bugs you about this. In your laser example, when you spin the laser 180 degrees, light travels out from the laser as it's being spun, and as a result, the appearance can occur of a moving spot which travels faster than c. The spot is not a single "thing" - it's the result of a succession of related events, as the emission source describes an arc. From the point of view of physics and special relativity, the fact that the resulting "spot" moves faster than c is unimportant, and doesn't break any rules. A projected spot or shadow is not a "thing" from the physical perspective, even though people tend to think of it as such.

Re:Nitpick

[DeHar]

You assume that if you push one end, the other end moves instantaneously? Common sense doesn't look at the atomic interaction of forces.

The push you give the rod just pushes the atoms in the near end of the rod, which push the atoms right next to them, and so on, and so on. The rod moves because you have created a pressure wave in the rod.

So, forgetting about inertia (!), the other end of the rod still doesn't move immediately.

Re:Nitpick

[ajshankar]

"Let's say, for example, that I've got a 1 AU (about 8 light-minitue) long indistructable rod and I'm out in space. I push the rod. Common sense says that the far tip of the rod moves at the same time I move the near tip. "

In this case, common sense is wrong. Your push will propogate through the rod at the speed of sound in the medium of which the rod is made. So chances are it'll take a lot longer than 8 minutes for the other end of the rod to move.

Re:Nitpick

[Lester388383]

Thank you. You saved me the trouble of correcting him. You should have been moderated higher. People think a beam of light as a 2x4 instead of a garden hose. This is an important distinction. I made the same mistake (in high school), but stumbled on the truth after a while. P.S. and off topic: I get your point and defend your right to be a christian, but the challenge you imply hints you might not be fully converted while simultaneously betting that nonpractioners will turn the other cheek when it comes to allocating the limited food supply.

Re:Nitpick

[utahjazz]

The experimenters, and the flashlight man, are not moving anything at the speed of light, just the idea of something.

Perhaps a better analogy would be, I look at Planet X and decide it's the ugliest planet I've ever seen. Then, I turn my head ant look at Planet Y, light years from Planet X, and decide that it is actually the ugliest planet I've ever seen. The location of the planet I find most ugly has moved faster than the speed of light.

"But nothing really moved from Planet X to Planet Y".

Exactly.

Re:Nitpick

[Greedo]

The really-long-stick thing bugged me too for the longest time, except, I always imagined spinning the rod instead of pushing on one end.

The answer I was given is that the rod might be indestructable, but it isn't rigid. In fact, in relativity, there is no such thing as a rigid body.

This page has a pretty good explanation.

Re:Nitpick

[Zaak]

Common sense says that the far tip of the rod moves at the same time I move the near tip.

Remember that matter is held together by the electromagnetic force between protons and electrons. The electromagnetic force is carried by photons, which obviously move at the speed of light.

TTFN

Re:Nitpick

[p3d0]

So what? If you wait for 16 minutes (round-trip time) and then observe the location of the spot, it will move faster than the speed of light. I'm not sure exactly why this bugs you.

If I am inside a sphere 1AU in radius and turn a laser pointer at 60rpm for a long time (more than 16 minutes), I will see a laser spot on the sphere rotating at a rate of a billion km/sec, which is thousands of times the speed of light.

Re:Nitpick

[Jordy]

Let's say, for example, that I've got a 1 AU (about 8 light-minitue) long indistructable rod and I'm out in space. I push the rod. Common sense says that the far tip of the rod moves at the same time I move the near tip. But that'd break the speed of light; forgetting about inertia for a moment, it'd take at least 8 minutes for the rod to move after I push the near end.

The end of the rod does not move instantaneously. Realize that each atom along the way has to collide into another atom all the way to the end before the end moves. This collision speed is less than the speed of light.

There is also an upper limit to tensile strength. If you were to take a long pole and swing it, it would snap before moving faster than the speed of light.

Re:Nitpick

• YES, I'm a Christian. Got a problem with that?

Yes, I do, you bigoted fuck.

Re:Nitpick

[Planesdragon]

If you define the "spot of light" as "the area illuminated by the laser," and "to move" as "to change location," the spot of light most certainly does move. 8 minutes after you turn the laser, it will move across whatever you're illuminating at a speed exceeding that of light. I don't know what else you could possibly mean by "spot of light" or "move." Of course, this does not violate relativity at all.

Are you sure? (Ph.D. sure).

Light is either a string of particles or a wave; either one can be modeled approximately by a high-pressure hose.

If I suddenly turn my hose 180 degrees, I don't move the water that's allready gone out of the hose; I simply start shooting water out at a different angle.

OTOH, if "spot of light" means "area targeted by the laser, then it can move rather well. But it'll still take 8 minutes to get to the new target & can't violate relativity. The target doesn't *move*, it's simply changed--and since the target is just an imaginary spot, it's not bound by relativity. (Quick, think about earth, now about the sun--bet'cha it doesn't take you eight minutes to switch.)

Re:Nitpick

[Planesdragon]

The end of the rod does not move instantaneously. Realize that each atom along the way has to collide into another atom all the way to the end before the end moves. This collision speed is less than the speed of light.


I do realize that. But it bugged me when my HS teacher said it moved "instantaneous."

According to Einstein's theory (I don't think it's proper to call this part of it relativity), nothing can move faster than light--not even cause and effect.

(OTOH, there's gravity, which is a whole different ball of wax...)

Re:Nitpick

[Planesdragon]

You assume that if you push one end, the other end moves instantaneously?

No. I assume that the rod would break, and as I understand current theory, given an inertialess, indistructable rod, the "movement" of the rod could only be c and no higher than c.

I wonder if that's ever been proven?

Re:Nitpick

[Planesdragon]

Call it bad semantics.

There's no limit to the speed a reference can change. I can go out at night and look at one star, which is several light years away. If I turn around and look at a differnet star, my visual target switches locations at a speed far beyond what all but the campiest sci fi imagines.

If I am inside a sphere 1AU in radius and turn a laser pointer at 60rpm for a long time (more than 16 minutes), I will see a laser spot on the sphere rotating at a rate of a billion km/sec, which is thousands of times the speed of light.

I disagree. I think that if you had a visual acuity good enough to see this hypothetical spot, you'd also be able to see the laser's photon wave as it spiraled around from the central point, twising at 60rpm and expanding to 1 AU at approximately c (need to account for travel time to reach the viewer.)

But, if we had a 1 AU sphere with a photosensor, the "mark" from the laser pointer would seem to rotate at rather high multiple of c... (I feel like some math... the 1 AU sphere has a diameter of about 6.28 AU. Traversing this at 60 rpm would require a speed somewhere in the neighborhood of 3000c... which is about Warp 3-4 for ST:TNG)

Re:Nitpick

[jareds]

Are you sure? (Ph.D. sure).

Well, I don't have a Ph.D. in physics, but I imagine I can easily find one to endorse my opinion on this if you really want (I'm a senior, soon to be grad student, at MIT).

To make my claim as precise as possible: There is a laser emitting light at the center of a sphere of radius 8 light-minutes. The "spot of light" is the "area illuminated by the laser," which is not an imaginary concept. This all happens in an inertial frame of reference. At time t=0, the laser is rotated 180 degrees in pi seconds. At time t=8 minutes, the spot of light moves across the interior of the sphere at a speed 480 times that of light. At time t=16 minutes, an observer at the center of the sphere will see the spot of light move 480 times faster than light.

This works because light is being emitted from the laser as it is being rotated. It will, of course, take 8 minutes for the light to get to its new target, which is why the spot won't move until 8 minutes after the laser is rotated, and why the observer won't see it move for 16 minutes.

Re:Nitpick

[Jordy]

I do realize that. But it bugged me when my HS teacher said it moved "instantaneous."

Your high school teacher may have been oversimplifying things. If an object was in fact perfectly rigid, then in fact, the effect would be instantaneous, but as I said before, there is a limit to the tensile strength of any material. Perfectly rigid multi-atom materials should not exist with our current understanding.

(OTOH, there's gravity, which is a whole different ball of wax...)

The current theory states that gravity also moves at the speed of light.

If suddently a massive object appeared in the middle of nowhere, the time it takes before objects around it were affected should be the speed of light.

Re:Nitpick

[p3d0]

If I am inside a sphere 1AU in radius and turn a laser pointer at 60rpm for a long time (more than 16 minutes), I will see a laser spot on the sphere rotating at a rate of a billion km/sec, which is thousands of times the speed of light.

I disagree. I think that if you had a visual acuity good enough to see this hypothetical spot, you'd also be able to see the laser's photon wave as it spiraled around from the central point, twising at 60rpm and expanding to 1 AU at approximately c (need to account for travel time to reach the viewer.)

That's ridiculous. You don't see light passing away from you through a vacuum. How would it get to your eye?

Perhaps I can preempt your next argument, that space is not a perfect vacuum. Well, it's still many, many orders of magnitude less reflective than our hypothetical sphere, so there's no reason to think anyone capable of seeing the laser spot on the sphere would see the spiral.

Re:Nitpick

[Planesdragon]

That's ridiculous. You don't see light passing away from you through a vacuum. How would it get to your eye?

You're talking about a hypothetical superhuman sensor that can see a single spot of light no bigger than 1 mm moving at 60 rpms from 1 AU away. I suspect that level of ability would also include the ability to see whatever it is that really carries light directly.

OTOH, if we've got a super-laser that projects a 1 degree wide "spot," you're probably right. ('course, it'd also take about 16 minutes for you to see the effect of anything you do; start up the device and you don't see it working for 16 minutes, utterly destroy it and the "spot" still makes about 960 more rotations.)

Re:Nitpick

[p3d0]

You're talking about a hypothetical superhuman sensor that can see a single spot of light no bigger than 1 mm moving at 60 rpms from 1 AU away. I suspect that level of ability would also include the ability to see whatever it is that really carries light directly.

Wow, I don't know where to start. Let me just say that I never said how big or bright the spot was, and I'll let the rest of this hopeless paragraph wallow in its own ignorance.

Re:Nitpick

[stanmann]

Ah, so we simply need a large enough particle, which is not made up of sub particles. sprung into existence as a long rod.

One correction to your statement

[Timwit]

The "group velocity", as the article points out, is not faster than light, ...

That is incorrect. The group velocity *is* faster than light, but like you said, that is not the same as energy or information travelling faster than light.

BTW, does "rsidd" have anything to do with Repetitive Stress Injury?

Re:One correction to your statement

[Fatllama]

No.

If no useful information could have been passed...

[elmer-12]

...then how can they tell the test succeeded? Isn't PASS or FAIL useful information?

Isn't the topic a bit misleading?

[AtariDatacenter]

This really says two things:

1] This has been done from time to time and nobody probably ever noticed.
2] You can also break the speed of sound using off-the-shelf components. But it isn't much of a miracle if you are beating it in a different form (electricity, light, etc).

first year grad student physics at work

Why do these stories keep cropping up as freakin' news. I mean if Taco and company are going to keep putting them on the front page, why not all the stories from people who omit or add an extra minus sign and re-work all of Maxwell's equations coming up with goofy results. Any student with a good first year graduate e&m course or even a good qm course will realize this is just the whole issue summarized by answering the question, "What do you mean by the velocity of a propagating wave?" Start with defining packet velocity and go from there ....

LOL, please explain...

...I just don't understand, sorry.

Time for ComStar!

[MythosTraecer]

Sounds like to me we'll soon have Hyper-Pulse Generators, and we'll have to form a religious techno-cult to administer our FTL communications network. We'll just have to start building BattleMechs so we can defend the network from invaders.

OK, seriously, the whole "faster-than-light" aspect of this is just sloppy reporting. I guess this is the "New Science" covered in New Scientist now.

group velocities can exceed c

[alienmole]

Can't argue about New Scientist - it seems to have lost all credibility, perhaps since it began publishing on the web, I'm not sure. Luckily, we have Slashdot to correct it! ;o))

Regarding phase velocity vs. group velocity, both phase velocity and group velocity can exceed c - see Superluminal, second paragraph. Group velocities exceeding c have been done for decades - for a bit of a history, see No thing goes faster than light.

The innovation in this case seems to be that it's doable with cheap equipment, and over fairly long distances.

Re:group velocities can exceed c

About the experiments which are described (very briefly) on the page you link to: the results are uncontroversial, but the semantics of how to describe the phenomenae are questioned by some people. The question is whether what is being measured in the experiment is really the group velocity.

But really this is only a matter of definition in the end. The physics behind the effect is generally agreed upon.

sensible weights and measures

[spongman]

c ~ 1802617528320.3 furlongs/fortnight

Re:sensible weights and measures

Finally, c in a useful context. Abe Simpson would be proud.

Re:sensible weights and measures

[trezor]

"c ~ 1802617528320.3 furlongs/fortnight"

Nice use of the '~'-symbol. Given the use of only 14 digits. Not to mention the use of units probably known to maximum 0.001% of the human population :)

Re:sensible weights and measures

[l1gunman]

>Enter any 11-digit prime number to continue.

53966060713

Whew! I was stuck there in this thread for a moment...

This flippant answer brought to you by Mathematica 4.1 Trial Version

Re:sensible weights and measures

[smartalix]

...which is why it was cool to do so.

The speed of light is variable

depending on the medium its traveling in.
Seriously. It loses time slamming into atoms and then being re-emitted. In dense objects its pretty slow.... Heck, even air can slow it down a little (Thats why we have Cherenkov radiation, which occurs whenever a particle moves faster than a photon does _in air_). The poster obviously wanted to make things seem more interesting by neglecting to mention the 'in a medium' part. While its a little dodgy to me how yer going to get an electron to flow faster than light normally would in a medium, and actually approach C (the _Absolute_ speed of light, as it travels in a vacuum), they arent talking about exceeding the speed of C.
So please chill out, O children of the sci-fi channel. theyre not talking about anythng _that_ off the wall.

Error in the article?

"Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms."

I remember from physics class that speed of the electrons was very small in wires. But speed of signal might be 2/3*c.

how the hell is near light speed breaking the limi

you can't have a title that says speed of light broke, and then say that it may be one day possible to go near the speed of light.

fooyey

( i didn't read the article yet - because I suck )

Irresponsible

People should be careful with their wording. They intentionally used poor wording to raise eyebrows and get attention and possible funding. Phase velocity is much different than group velocity. It's meaningless to even mention the speed of light when speaking of phase velocity. This really pisses me off as a physicist that some people are so irresponsible.

Maynord

Move over Doc Brown!

[TheKubrix]

Does this mean the Dolorean now only has to go 22MPH now?

Sorry

I need to test the IE of this machine and this is the easiest way I know how.

Do Electrons All Move at the Same Speed?

[Mignon]

As I vaguely understood the explanation, it seems to rely on properties of wave interference. Some components, if you will, of a combination of waves travel faster than light, but the aggregate doesn't. OK, that's not too far fetched for my basic physics knowledge to comprehend.

But we all know that electrons have properties of particles as well as waves. So that makes me wonder if all electrons travel at the same speed, or are they traveling in a range of speeds, with the average electron going at the nominal speed for a given medium? In other words, are some going slower and some going faster? And if so, is it possible that some are actually going much closer to the speed of light than others?

Re:Do Electrons All Move at the Same Speed?

[HardCase]

But we all know that electrons have properties of particles as well as waves. So that makes me wonder if all electrons travel at the same speed, or are they traveling in a range of speeds, with the average electron going at the nominal speed for a given medium? In other words, are some going slower and some going faster? And if so, is it possible that some are actually going much closer to the speed of light than others?

Don't get quantum mechanics and electrical transmission mixed up. It sure seems like electrons are spouting out of the wire at some crazy speed, but what you're seeing is the interaction of electrons on each other (to put it really simplistically). Think of it like a hose that's full of water, but with the valve shut off. When you open the valve, water rushes out, not because it traveled really quickly from one end to the other, but because the water at the valve end pushed until the water at the open end came out. It's the same thing with a wire. The electrons themselves move quite slowly, maybe a little faster than you can walk (in something like the copper wire in your house). In fact, if you equate electrical current to the flow of water in the hose and electrical voltage to the pressue of the water, you have a pretty accurate analogy!

-h-

Go Ludicrous speed!!

[McFly69]

Sandurz: Prepare for light speed. Helmet: No, no, light speed is too slow. Sandurz: Light speed too slow? Helmet: Yes, we'll have to go right to...Ludicrous speed! Sandurz:Ludicrous speed! Sir, we've never gone that fast before. I don't think the ship can take it. Helmet: What's the matter, Colonel Sandurz...CHICKEN?!

Information on superluminal tunneling

[slavemowgli]

Those that are fluent in the german language at least may be interested in checking out the following explanatory file on tunneling:

http://theory.gsi.de/~vanhees/faq-pdf/nimtz.pdf

I wondered how my electric can opener was able

get so far across the room so quickly.

Ludicrous speed!

[McFly69]

Sandurz: Prepare for light speed.
Helmet: No, no, light speed is too slow.
Sandurz: Light speed too slow?
Helmet: Yes, we'll have to go right to...Ludicrous speed!
Sandurz:Ludicrous speed! Sir, we've never gone that fast before. I
don't think the ship can take it.
Helmet: What's the matter, Colonel Sandurz...CHICKEN?!

Gee, I have a great idea...

[Bowie+J.+Poag]

Wait, i've got it!! How about...we use light to transmit information at the speed of light? WE WILL RULE THE EARTH...OR SOMETHING.

Anyway, since when does going down to a hardware store and buying a flashlight and a light sensor constitute newsworthiness?

Cheers,

Well, of course!

[Pig+Hogger]

Since the speed of light in copper is zero, anyone with a flashlight battery and a length of wire is able to send electrons faster than light!!!

With such bloated cost estimates, those scientists must be working for the Pentagon, because the last time I checked, those materials were much cheaper than $500.

Doc Brown

[Scrameustache]

Time machine: Here I come!

Next step: finding a deLorean on eBay...

Re:Doc Brown

[-=Izzy=-]

You asked for it .. here it is

im just amazed at how cheap a delorean can be had for ...

[OT] idiom reference

[billbaggins]

Well, I can't find 'selling a bridge' in any permutation there, but that's a well-beaten dead horse already... anyway, there's an idiom reference here that you might try out.

New slashdot tagline

[ucblockhead]

"Slashdot! We don't suck any worse than the traditional media!"

Speed of Electrons vs Electronic Signals

[bevan.arps]

"Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms."

It's kinda hard to believe an article that gets basic physics wrong.

The actual speed of electrons in wire is very very slow - on the order of milimetres per minute.

The speed of electrical signals on the other hand is normally around 0.6c.

You'd think that the editors at New Scientist would have a clue. I studied this stuff at High School - age 15. It's not Rocket Science.

This is misleading sensationalism

[Dr.+Spork]

No, don't worry, nothing actually traveled faster than the speed of light, and nobody can send information faster than the speed of light. You have to read pretty far down in the story to get that... Well, either that, or you had to have gone to school.

You know, non-physical object can travel faster than the speed of light. You can do these experiments very cheaply. Take a laser, point it at the moon, and shake it around. The image you make with it traverses the surface faster than the speed of light. That doesn't mean anything is actually moving faster than c. The experiment described is of the same sort. Interesting, but packaged in a terribly misleading way.

Re:This is misleading sensationalism

[tshak]

Well, either that, or you had to have gone to school.

This is a very assuming (and a bit arrogant) statement. There are many, many college graduates that do not know even an ounce of trig or calc let alone physics.

Looking for mirror

[Skapare]

Anyone have a mirror of the NewScientist web site? Their web programmer is clueless (and has been told about this a few times) and developing stuff that is incompatible with some proxy servers.

FUCK YOU MOTHERFUCKER AND EAT MY DICK

yo this licks my nuts

Re:I wondered how my electric trebuchet

was able to hurl a 100 kilo piece of rock through the castle wall.

Phase velocity != Group velocity

[Fatllama]

Nothing to see here. Move along.

I saw that, WTF?

the new scientists are konfused.

Hey you kids!

Stop measuring sine waves. Measure something with information in it. You're reading harmonics or you've got Alpha-Phi's next door with an EMP-inducer fscking with your heads.

The title is a little bit misleading, isn't it?

No electron goes beyong c in this experiment.

phbbt, I already did this in 5 years!

[gosand]

I have already proven that you can break the speed of light barrier, in 5 years. I was visited today by myself. I guess in 4 years I am going to fall while hanging a picture in the bathroom, and hit my head on the sink. I'll be knocked unconscious and have a vision of something called the flux capacitor. It will take a year to develop, and I will be able to travel faster than the speed of light. Oh wait, or was it travel in time? Crap, I can't remember what I told me.

Re:phbbt, I already did this in 5 years!

[RedWolves2]

If you can't remember then just leave yourself a calendar appointment for 5 years in the future then you will get the reminder and go back in time to tell yourself again what it was that you don't remember. It should happen as soon as you hit submit on the calendar appointment.

Does Newscientist *know* physics ?

[adomjan]

Everyone who made some physics know that electrons are not moving at light speed in wires. Even not at 2/3 of light speed; but only at some centimeters / second. Or all our wires would be quite hot in our computers and phone lines :-)

Only the electric field (aka information) propagate at the light speed.

So this article does not look really serious.
Does slashdot start publishing fake stories ?

(btw, this is my first comment :-)

Causality.

[Trinn]

One very simple question. Why does everyone think that FTL travel/communications suddenly breaks causality or more generally, allows time travel into the past/messages to arrive before they are sent, etc.?

Re:Causality.

I don't. I think you go into an alternate reality that's there already... waiting for you. If you managed to escape from that... then you'd be doing weird stuff. We're 3 dimensional so we assume time is the fourth dimension. Wrong! It's like since birth you start out from as a 3D pixel and everything you experience is a pixel on a line that traces your experiences from then on outwards. Equate a 'pixel' to a picosecond of all your sensual input. You're riding an experience bezier of sensual input curve radiating from the centre of a sphere. What's going on in the other parts of the sphere ? Jump there and... Whoa! this is a bad comedy club. Either that or they spiked my red wine.

Phase Velocity vs. Group Velocity

[Effugas]

I'm going to munge this pretty righteously, but it's for a good cause (explaining how the speed of light wasn't violated).

Take a bunch of cars in traffic -- stop 'em, say there's an accident. Cops go ahead, clear the accident. Open road, right? Clear to go 65.

Does the entire traffic jam disappear immediately? Nope. Each *car* may be able to go 65 now, but they have to wait for the car in front of them to go away. That takes time -- two to five seconds. There's a bit of a blurring, as people see cars three or four cars ahead start to speed up -- but just because the cars *could* go sixty five, doesn't mean they *are*.

If you were sitting above the traffic in a copter, you'd look down and see a "pulse" travel slowly back through the crowd, as slowly everyone saw the car in front speed up. Eventually the entire group would speed up to some maximum speed.

The speed of the cars forward is the group velocity (more or less).

The speed that "all clear" pulse went backwards, that's the phase velocity.

Imagine everyone was drunk -- that pulse would go back really, really slow. Imagine everybody's car had a computer, linking 'em together. The *moment* the guy in front of them moved, they'd speed up too. That pulse would go quite fast, and traffic would be rather more bearable.

Same speed limit -- same group velocity -- but phase velocity ranges from near zero to past the speed of light, depending on whether drunk drivers or synchronized computers are behind the wheel.

At no point does any care break the speed of light, though :-)

--Dan

Re:Phase Velocity vs. Group Velocity

[Huge+Pi+Removal]

Same speed limit -- same group velocity -- but phase velocity ranges from near zero to past the speed of light, depending on whether drunk drivers or synchronized computers are behind the wheel.


Only if all the computers had atomic clocks and were told beforehand an exact time to set off. If the computers were daisy-chained together, the signal would travel back through the jam at no more than the speed of light. I was with you right up until that point... :)

Re:Phase Velocity vs. Group Velocity

[Effugas]

Pi--

I thought about explaining that, figured I'd just throw it in the inevitable response.

Basically, you schedule all the cars to start driving forward some time in the future. Given sufficient distance between the cars to begin with, it isn't hard to cause the discretized speed of the pulse transfer to exceed the speed of light, even with arbitrarily drifting clocks.

--Dan

Re:Phase Velocity vs. Group Velocity

[Huge+Pi+Removal]

Originally I thought that having clocks spoilt the thought experiment, but after reading your response I thought some more, and I realised your original comment was a really good analogy. Thanks for that...

Now if only I'd worked something about faster-than-light pulses into the story that's my URL above. That coulda been *fun*.

Re:Phase Velocity vs. Group Velocity

[Lally+Singh]

Have all the cars "agree" to start at the same time, say an "all clear time" set by officers. Then they synchronize on a GPS time signal, which hits all of them at damn close to the same time.

Re:Phase Velocity vs. Group Velocity

[Effugas]

Actually, the analogy gets really interesting if you throw in clocks. See, lets say you've got a traffic jam, and the police tell everyone "we'll have it cleared in one hour. Here's a clock, everyone GO when one hour is up."

At 59:30, everyone turns on their car.

At 59:45, everyone revs their engine.

At 60:00, everyone GOES.

Now, that pulse is going to move really, really fast, possibly discontinuously so (car 3 might jump before car 2, after car 1). Faster than reflexes will allow. Maybe even faster than light -- how?

Because the information -- when to move -- got sent an hour ago, when the cop scheduled the motion in the future. And that information moved just about as fast as the cop could move.

--Dan

P.S. Yes, I'm glossing over time distortion effects when the officer walks over, mainly because I don't want to argue basic calculus regarding the silly arguments against simultaneous action.

P.P.S. Really amusing story -- i'll look at it more later.

Re:Phase Velocity vs. Group Velocity

[jelle]

Could you explain that to all the people in front of me when the light turns green?

Re:Phase Velocity vs. Group Velocity

[Effugas]

GPS Time signals propogate at the speed of light. Using local time(synced through something like sntp) w/ prescheduling lets you avoid propogation.

--Dan

Re:Phase Velocity vs. Group Velocity

[BLiP2]

what about this situation.

Let's say we have 100 roads stretching all the way to Jupiter. On each road we cause an auto accident at Jupiter and allow traffic to back up to Earth. We clear some of the accidents, and not others. All the drivers again go at a predetermined time. Some will proceed down the road, and others will immediately be unable to move. We count the lanes that could move on earth as 1, and those that couldn't as 0. Or maybe tubes of ping pong balls from here to Jupiter, packed as tightly as possible, and we block the end of some and leave others open, and at 6pm or so we push on each tube. Is it possible to transmit information on the phase pulse this way?

Re:Phase Velocity vs. Group Velocity

[Kredal]

The information would only be sent as fast as you tell the people on Jupiter which tubes to unplug...

Or maybe you just don't push on all the tubes.. just the ones you want to describe a "1" on. Then the Jupiterian would see ping pong balls falling out of some of the tubes, and would know that those are the ones you wanted to be "1"s. I dunno, that might work, but it seems like we're missing something here. If we weren't, we'd have strings of pingpong balls across the pacific ocean to send data instantaniously...

Re:Phase Velocity vs. Group Velocity

[soybean]

This doesn't quite make sence to me. How would the following car get the information that the proceding car has speed up? Isn't that message itself bound to be less then or equal to the speed of light?

Re:Phase Velocity vs. Group Velocity

[Effugas]

See the other posts about presyncing -- essentially, you aren't responding to the car in front of you; rather you *and* the car in front are responding to information delivered some time in the past.

--Dan

Re:Phase Velocity vs. Group Velocity

[Effugas]

But they won't be immediately unable to move, that's the thing. At the prescheduled time, the first guy will be unable to move, the next guy will rear end him, and the third guy will rear-end the second, and so on. The speed these rear-endings resolve is related to the distance between cars.

But what if all the cars started out touching? Indeed, what if all the cars were welded together?

The pulse would travel at the speed of sound through steel -- quite fast, but not infinitely so.

--Dan

Since we're making bullshit headlines...

[DasBub]

...how about this:

"MAN USES OFF-THE-SHELF COMPONENTS TO TRAVEL BACK IN TIME"

Story: 34-year-old Miami resident tapes Thursday's Weakest Link for viewing on Saturday morning.

Painfully inaccurate

[fegu]

From the post: "Electrons usually travel at two-thirds of light speed in wires".

Now that would be truly remarkable and fairly dangerous, what would happen if you cut the cable and pointed the end at someone?

In reality, electrons move abysmally slow, something along 2cm/hour if I remember my high-school physics classes correctly. What moves at 2/3 the speed of light in wires is the signal.

Think of it this way: when you turn your kitchen hotwater tap, water starts flowing from your tap immediatly and water starts flowing within the pipes very quickly as the sudden _change in water pressure_ (signal) propagates through your pipes.

The water itself however, is not really moving this fast. It is not the same water going in that is coming out.

Someone please sign Hemos up for physics 101? I would do it but I live in Norway and I doubt he would be able to concentrate on anything else than our fjords if he bothered coming here.

Re:Painfully inaccurate

Interestingly, in both cases, with the water in the pipes and the electrons in the wire, what's actually travelling so fast are the photons - the light.

a better analogy

[lommer]

I think the best analogy I've ever seen is the one using ping pong balls.

Imagine you have a long tube filled with pingpong balls all the way to each end. Then, when you push another ball in one end, what happens? Another ball immediately pops out the other end, at exactly the same speed that you pushed in the first one, but potentially miles away from your end of the tube. But still, none of the pingpong balls ever went faster than you pushed in the first one.

Re:a better analogy

[lannocc]

Wow that analogy actually makes sense to someone like me :). Now, what I don't understand is how does this prevent one from sending useful "information"?

Let's say I had two of this ultra-long ping pong ball tubes, one to represent a "1" state and the other to represent a "0" state. Can't I effectively communicate in binary over that long distance faster than the speed of light using such a method?

I'm not knowledgable, just curious.

Re:a better analogy

[Fortuna+Wolf]

Except that this analogy is wrong.
In some cases electrical signals work like that, but don't travel instantaneously.
No object is totally rigid, its forbidden somewhere in the laws of physics. The balls will compress slightly and then a wave either in the movement of the balls or their getting compressesed and then expanding. Its akin to taking a stiff object and swinging it, if you swing it fast enough and its long enough, the end won't break the speed of light because its not completely rigid.

Re:a better analogy

[eggnet]

And, more importantly, the propagation of the displacement of the balls did not exceed the speed of light.

Re:a better analogy

[StrayLight]

It gives a nice looking idea, however, yes, it's wrong. In fact, the time it will take for the ball at the other end is the time it would take sound to travel through the ping pong balls.

Sound moves as waves, remember...and what that actually means is that it moves as compressions and expansions moving through the balls. Pushing one in a consistent direction is no different, the compression propagates at the same speed. I've no idea what the speed of sound through a ping pong ball is, but it's nothing close to the speed of light :)

So, yeah, sounds intuitive, but like most things in this area, intuition tends to fail very badly.

Re:a better analogy

[Tower]

Well, aside from the fact that you would need a whole lot of Ping-Pong(TM)* balls, when you translate that to an electrical signal, you'd have to deal with clocking. With the difficulting in getting the bit across neatly, it becomes even more difficult to send a correlated clock signal on an equivalently phased path or embed a signal into the pulses (which requires more decode logic and can create quite a delay inside of a chip).

* - since geeks tend to get picky about silly differences (such as Open Source vs open source), I'll just mention that table tennis is the general term, and Ping Pong is a brand name, and at one time, had slightly different rules. [/pedantic]

Re:a better analogy

[ealar+dlanvuli]

wait, say I have a string 1AU long, and I swing it with a peroid of 6 seconds, why would the end not be going faster than light?

Why is it impossible to do this? It seems to me it wouldn't require a excessive amount of energy to speed it up to 10rpm.

Re:a better analogy

[Spy+Hunter]

You can't use this fact to break the speed of light with ping-pong balls, though, because of their elasticity. In fact, even balls made out of the most incompressible material in the world would not be able to send a signal (indicated by the ball popping out the other end of the tube) faster than the speed of light in this manner. The reason is that the pressure you apply to the balls takes time to propogate though the balls, and it can not travel faster than the speed of light. So if you had a tube a light-year long, pushing in a ball at one end would not cause another ball to immediately come out of the other end, even if you were able to push the ball all the way into the tube. The balls in the middle would be compressed, and the compression wave would propogate at some speed smaller than the speed of light.

Re:a better analogy

[dmd]

It seems to me it wouldn't require a excessive amount of energy to speed it up to 10rpm.

It would require an infinite amount of energy to do this, and I think that counts as excessive.

Re:a better analogy

[kalidasa]

wait, say I have a string 1AU long, and I swing it with a peroid of 6 seconds, why would the end not be going faster than light?

Figure out the mass of it . . . it will take a hell of a lot of energy to whip a string 1 AU long. Eventually you'll start running into relativistic effects at both ends of the string; dilation of both time and length, massive increases of the string's mass (remember, when an object gets up to relativistic speeds its mass dilates upward, and more force is required to accelerate it at the same G; the mass of the tip of the string will approach infinity as its velocity approaches c).

Re:a better analogy

You're just making that up.

Re:a better analogy

what about clockless computing? -- where time doesn't matter!!! ;)

Re:a better analogy

[kalidasa]

Just in case you're not kidding Note that the length shortens with higher velocities, while the mass increases.

Wait a sec...

[JoeRobe]

"The different electrical resistances in the hybrid cable cause the waves in the pulse's rear to reflect off each other, accelerating the pulse's peak forward."

If the pulse's peak is being accelerated forward, isn't that basically saying that the group velocity is being accelerated? Am I correct that the group velocity is essentially the speed of the peak of the wavepacket?

Or are they saying that they are increasing the phase velocity to superluminal speeds but the group velocity, while increasing, is still staying below c?

just wondering...

what if i took a solid object.. like a broomstick, and pushed and pulled it in a pattern.. like morse code. doesn't the data get to the destination.. like some guy's stomach, instantaneously, faster than light speed?

very impractical.. but wouldn't the data technically be transferred faster than light?

i've always wondered this.

Re:just wondering...

[freuddot]

No, the data would move at the speed of the sound in a broom, which is quite low.

As usual, the headline is wrong.

[HardCase]

When the scientists talked about transmitting peaks of waveforms at four times the speed of light, it wasn't anything new. The group velocity of a set of signals can easily exceed the speed of light, but the caveat that was included in the text of the article was spot on the money. Although the interference signals were traveling very, very fast, no useful information was available from them. Thus, in and of themselves, the interference patterns have no value, and again, that's not news.

On the other hand, increasing transmission speeds in computers, whose signals typicall travel at around .5c, by 50% would be a big gain. The time that it takes a signal to get from, say, the input of a chipset's driver to its output is on the order of 2ns. In an area where every picosecond counts, a significant reduction in propagation time is priceless!

-h-

Even if it was possible.

[mmol_6453]

Even if it is/were possible (has anyone actually gone to the trouble to email the scientist who supposedly did the experiments?), there would be some severe expected problems.

They're talking about interfering waves. That means pulsating DC, if not straight AC. Get this up to a frequency to even be useful (ala GHz to compete with CPU or networking technology), and suddenly you're broadcasting your signal. (Though coax's construction does cause some muting of this, IIRC) And putting it on silicon is a thing for Intel to do.

And just for proof that it's not possible: "superposition."

It says that waves will pass through each other and come out the same on the other side. Easiest to see in a ripple tank, or maybe in a physlet.

Re:Even if it was possible.

[John+Hasler]

> They're talking about interfering waves.

They're talking about phase velocity. It can be faster than light, since it conveys no information and transports no energy.

Re:Even if it was possible.

[John+Hasler]

I meant group velocity, of course. "Preview" is useless if you don't _look_ at what you wrote.

Re:Even if it was possible.

[Hank+the+Lion]

No, you meant phase velocity, of course.
Group velocity is what carries the information, phase velocity can be higher than c.

Re:Even if it was possible.

[doug363]

Usually the group velocity is the speed of information transfer, but it's possible for it to be different, as it is in this case. Here, the phase velocity would be less than c (the propagation is in coax cables), the group velocity is greater than c, and the information transfer is <= c. (I don't know whether the information transfer is faster than the phase velocity or not, but I think it is. The article's a bit light on technical details.)

Doh!!!

[HardCase]

Whoops, let me correct this...where I said group velocity, insert phase velocity.

The group velocity is the speed at which the information travels. Obviously that's the thing that we'd dearly love to increase.

-h-

Re:Doh!!!

Quick way to get a +4 post on /.: Post a nothing-special post, then post a correction that gets modded higher than the parent.

Please stop this insanity!

Haven't these people watched "Event Horizon"?

This is magnitudes worse than human cloning or nuclear fission!

Doing this kind of research (FTL travel) can have world-ending implications and cause tremendous time-warping and severe gravimetric distortions.

BAN THIS RESEARCH!

No Laws are being broken here..

"Signals also get weaker and more distorted the faster they go, so in theory no useful information can get transmitted at faster-than-light speeds"

While the peak moves faster than light speed, the total energy of the pulse does not

So not only are laws NOT being broken here, it's of little real use. I can't see how they can even claim the wave peaks are traveling faster than light, as it would be rather impossible to measure such a figure.

I would like to see the math behind such a claim.

Half the people...

Half the people on /. are idioms, and the other half don't know it.

Shame on New Scientist

[QuantumWeasel]

More shame on /. for uncritical repetition.

lymrick for the occasion

[leenix+usr]

Okay someone had to do it...

There was a young lady named Bright
whos speed was much greater than light.
She set out one day,
in a relative way,
and returned the previous night.

'IN' wires...?

Not....

Unlike water, etc., that travels down the interior cavity of a pipe, electricity travels over the surface, exterior of a wire....what a dope.

Why the hypish topic title?

[legomad]

Also on from the article: "Speed of light broken with basic lab kit" This always happens where some title says light speed has been broken then all ppl get their hopes up and spread rumours and pseudo science sites pop-up and then everyone points to the part where it says relativity has been preserved and that there is really nothing useful. So don't tell us light speed has been broken until it has! Geez

You never saw it?

[ebbomega]

It's right between the two sections: "Heisenburg Compensation" and "Energy Producers"

"Lisa, in this house we obey the laws of Thermodynamics!"
-Homer J.

Nuts...

[Boronx]

Something about this is driving me totally crazy: those knowledgable about physics say its "only the phase velocity" blah blah blah "only the peak of the wave" and so on. What I can't understand is, If you can't detect this peak until after enough time has elapsed, then how do you know it really got there faster. And if you *can* detect it when it actually arrives, the how come you can't transfer information with it? (like an on off on off code or something?)

Yes, this stuff will lead to time travel

[V_drive]

Just a heads up for all you armchair physics experts, I'm sending this message on May 15, 2048 ...so don't laugh!

Now, I've gotta send an email to 1999 warning myself not to buy that VA stock. "Yeah, I know it's dropped all the way down to 50...don't buy it."

Now if you were standing at the end

[Skapare]

Now if you were standing at the end where the laser (or bullet, in another poster's machine gun analogy) impacts are coming to, what would it look like to you (assuming it stops just short of hitting you)? The answer is, you'd see the closer impacts first, and the more distant impacts later. It would appear that they are going away from you. So from this perspective, time would appear to be going backwards.

The thing is, we might actually see such things happen out in space. Stars that are emitting energy in a specific direction, other than their poles, and are rotating, can illuminate dust clouds at some distance off to the side. On the side where the rotation is coming towards us, and at a distance sufficient to make the effect traverse faster than light, we'll actually see (if we can see that level of resolution) the effect go backwards. Combining the effect with an accurate rotation rate measurement, a very accurate distance from the star to the dust cloud can be measured. Then from there you can work back to an accurate mesure of the distance. In reality the distances will be rather small for quickly rotating stars, so it can't be observed directly. But surely it's effects can be predicted from other determinations of that distance and rotation rate, and then used to confirm those measurements.

They publish this kind of stuff?

[surfsalot]

My waves book from 61' clearly shows that the phase velocity can travel much much faster than the group velocity of waves... radio engineers have known this for about 70 years... I'm not exactly sure whats new. They're using the superposition of signals that dont degregate as much in cheap wire? (wow, they pick up that idea from 19th century physicists?) Thats worth publishing? I'm surprised this site doesnt have information about the /exciting/ developments in hydrinos (this is sarcasm). Measuring a signal whose wave peaks over the wavelength arive at 4 times the speed of light (note: The information or /energy/ of the wave still doesnt go faster than the speed of light) is about as exciting and mysterious as eating beans and getting gas from them...

Times are still tough.

[SHEENmaster]

Hell, I am on Mac OS X at the moment.

All the glory of UNIX, right? Well, UNIX without X. UNIX without a path listing in the file browser. UNIX without a standard c++ compiler. UNIX without, well UNIX.

Then again, it is UNIX with commercial software. A mixed blessing, but not so bad.

Back in my day, UNIX(Linux) was pure. I had no commercial software, aside from netscape. Back in my day, we(I) had my wyse dumb terminal and didn't care that the rest of the world(literally) had their cga and vga and svga monitors and their fancy mice.

I may only be 16, but I've used everything from the Timex Sinclair to the Altair to the VAX to, my favorite, unix. I run Linux and Mac OS X exclusively. This is my day, and unix is still going strong.

Re:Times are still tough.

g++2, g++3, gcc2,and gcc3 are installed with the free dev tools. You can get them at developer.apple.com

Re:Times are still tough.

[yomegaman]

It feels like unix to me. If you are too lazy to install X and the dev tools then that is your own fault.

Re:Times are still tough.

What the fuck has that got to do with anything? SHUT UP!

In Other News...

[Galahad2]

Scientists announced today that they have created a freezer that cools things below absolute zero made entirely from parts salvaged from a 1962 Ford Thunderbird. Following this amazing news, a group of graduate students announced their construction of an aparatus, built entirely from elmer's glue and tooth picks, which accelerates forever with no outside force. Not to be outdone, the Apache Software Organization announced a few hours later the availablity of mod_perl for Apache 2.0.

Phew, that scared me for a minute.

[uberred]

Poor Einstein, I thought. :)

Would make for some angry scientists

[Faust7]

Breaking the speed of light would be a truly wondrous, nobel-prize winning acheivment.

That would be the most ambivalent ceremony ever. Can you imagine the audience of physicists feeling good for the winner but so damn irritated at having to rewrite everything yet again?

Superluminal Propagation

Just for those who haven't really read these "speed of light broken" articles, the group velocity is greater than c, but none of the parts (photons or electrons) exceed c at any point.

Not so signifigant?

[moosesocks]

Don't radio waves and microwaves travel faster than light.

I'm sure you could find an old radio or Microwave oven for under $500

SHADOWS DON'T MOVE!

A shadow is the absence of light. There's nothing there to move. You couldn't even say that any information travelled faster than light. The edge of the shadow didn't carry information from its old location to the new one.

I couldn't care less about whether energy got transferred faster than light or not. Can anyone claim that this 'system' transfers Information faster than light? I seriously doubt it. Sounds like a load of BS to me.

Unbreakable law

[jelle]

"it's not just a good idea, it's the law!"

Speed of light... Not just a good idea. It's the solution to the monetary cost of justice.

Wow that is a revolutionary concept. A law that simply can not be broken. No need to enforce it, because nobody will ever be breaking it, because that is impossible. No need to reserve space in the jails, no sherrifs, lawyers or courts. No system of enforcement? Hmm, then why have the law at all? I hereby declare the limit to the speed of light obsolete.

Btw, who is going to inform Washington? We need more laws of nature.

Re:Unbreakable law

[OwnedByTwoCats]

For those missing the cultural reference, there was a slogan in the early 1970s:
"Drive 55. It's not just a good idea, it's THE LAW.".

My favorite variation:
"Drive 55. It's not a good idea, it's just THE LAW."

Word order matters!

Re:E=mc^2 - MOD PARENT UP!!!

Yomegaman's post does not deserve a 0!

That's it..

[jelle]

"c ~ 1802617528320.3 furlongs/fortnight"

That's it. That will be 50 years of force-feeding the metric system for you buddy.

Then you would realise

[rat7307]

Back in my day, UNIX(Linux) was pure.
I had no commercial software

You would then know that Linux != UNIX. Unix IS commercial software

Re:Even if it WERE possible... ;-)

[SlideGuitar]

There are two different issues here.

1) I haven't yet understood how you can transmit a signal faster than light without transmitting information faster than light... That apparently is the claim of the scientists. Others have made this claim too, earlier this year, and I didn't understand it then either. Somehow you can measure the emerging wavefront but not the information it contains, before the electron actually "gets there".... Fascinating if possible, but why that wavefront (or whatever it is that travels faster than light in a vaccuum) doesn't contain information is something I'd like to understand.

2) There is a claim that electrons (in a non-vacuum) can be pushed closer to the speed of light (in a vacuum). Well maybe they can, and then, of course they would contain information, and could in theory be used for computing. That seems within the range of possibility.

But the first claim still makes not sense to this nonphysicist. I hope someone can explain.

Wrong!!!

[bulletman]

Actually, electrons in wire travel about as fast as you can walk. Yes, it's true; look it up in an intro to electrical theory book.

The electric fields induced by the moving charges (electrons) move at a fraction of the speed of light depending on the the material inside the transmission line. Light propagates in materials with dielectric constants closer to air faster.

Re:Wrong!!!

[vegetablespork]

Flashbacks!

I = dQ/dt = nqAv(d)

Re:Even if it WERE possible... ;-)

[SlideGuitar]

...apparently I missed most of the above discussion where multiple people try to explain... never mind.

light speed will be broken....cry Enstein....

[globaljustin]

You science types love to draw lines in the sand and say works like 'never' and 'can't'.

The world can't be round, right?

One day another Galileo will come along and make all of you eat your words.

The world is infinitely more complex and all of our understanding doesn't even scratch the surface.

I can't see any practical worth

[NoMercy]

I've written this like 4 times so far, and I can't make it sound convincing, only slight analogy I can come up with is moire patterns they appear to move faster than there components do it's the same in this case, the peak is made up of many component waves, each moves at a fraction like 1/2 or 2/3 the speed of light, the peak is formed as each of these waves passes over the other thing is these waves have to be in place before the peak can form, you could probably guess when the peak is going to arive at the other end just by looking at the setup signals coming down the wire.

Nope, not going to cause any revolution in telecoms, or data transfer, and for timing/signaling events there's other systems available.

Cherenkov Radiation anyone?

[Orgasmatron]

The speed of light is broken all the time. It causes Cherenkov Radiation...

http://rd11.web.cern.ch/RD11/rkb/PH14pp/node26.htm l

And yes, I know people usually mean the speed of light in a vacuum

Transmitting information

[gnovos]

Well, I don't see why you wouldn't bet transmitting one bit of information, namely that the light has struck area X = true.

Re:Transmitting information

[ocie]

OK, let's call the laser station on the earth E, and the moon receivers M1 and M2. If you sweep a beam of light from M1 to M2, then you are doing this from E. Once the beam hits M1, the operator at E has already decided to point the beam at M2 and nothing you can do at M1 can stop or alter this. It is true that you are transmitting information, but you are doing it from E to M1 and M2 at the speed of light, not between M1 and M2 at the speed the point of impact travels.

Speed of light... in a vacuum

[Natchswing]

Come on people. There's over 400 comments and I didn't see any of the 100+ above my threashold that even hit on getting this fact right.

I can't read the article because the server is crying, but there is a minor fact that many people on here are missing. Nothing can travel faster than the speed of light in a vacuum. There are other mediums through which objects can travel faster than light.

Re:Speed of light... in a vacuum

[AnthonyLloyd]

Wrong, sorry. Nothing (matter, signal, information) can travel faster than the speed of light in any medium. Phase velocities > c are possible, but they are not the speed at which things are carried. That is the group velocity and it cannot be greater than c.

Your ping-pong ball anology is flawed

[Boojum137]

Ok, here's the way it was explained to me. Instead of ping-pong balls, imagine a really long rope, that you could pull back and forth to send messages or whatnot. When you pull on one end of the rope (or push in a ping-pong ball), you start a compression wave, and this wave must travel at a speed less than or equal to c. This applies no matter how hard the rope/ping-pong balls are. Like it or not, c is forever (damn laws of physics!)

Re:Your ping-pong ball anology is flawed

[LuxFX]

I'm familiar with a similar analogy:

take a non-elastic rope 500,000 miles long and create a simple pulley that stretches from your backyard to the moon and back. Tie a bucket of water to one end and pull on the other. Even if the material is 100% non-elastic, the transfer of motion can't move faster than light, so you'll still see a few seconds lag time before the other side of the pulley responds.

Obligatory Futurama Reference...

[Cyno01]

from ep. 2ACV10 - A Clone of My Own

Prof. Farnsworths Clone: Thats impossible, you cant go faster than the speed of light. Prof. Farnsworth: Of course not, thats why scientists incresed the speed of light in 2208.

broke it? JUST WAIT TILL YOUR FATHER COMES HOME!

[mekkab]

In the meantime, why don't you sit in the corner and think about what you've done...

I didn't give up my career to raise a light-breaker! Not in this house!

gandahar!

[neight9]

1000 years from now, Gandahar was destroyed. 1000 years ago, Gandahar will be saved.

Speed of electrons

Electrons don't travel at relativistic speeds in a wire, who travels this fast is the electric field. The electrons travel very slowly indeed (some centimeters/minute)...

*sob*

Bill Nye is dead?

"broken the speed of light" eh?

[E1v!$]

They never claimed to do that. Infact, this seems like nothing more than a variant of the 'group velocity' stuff in your average modern physics class. While this is interesting, please try not to mislead with the article title.

Speed of Light

[raung]

In a quantum sense, it seems that it is possible for particles to travel faster than the speed of light. Using tiny "tubes" through which microwaves have a small liklihood of traversing, studies have shown that while most waves stop dead, some "jump" through the tube instantaneously. Someone please explain why this does not collapse the laws of physics as we know them.

electron speed

[magic]

Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms. Hache says it may be possible to send usable electrical signals to near light speed.

The electrons don't carry information in wires. Electric fields carry information. The electrons happen to move about in the electric field. The electric fields propagate at about 2/3 the speed of light through metal, depending on conductance. Electrons move comparatively slowly (in part because they bump into things and heat up). It would take a heck of a lot of energy to accelerate an electron to 2/3 the speed of light inside a wire. I believe they move at speeds measured in single meters per second.

-m

I learned this in the NAVY

[paulydavis]

From the article

"While the peak moves faster than light speed, the total energy of the pulse does not. This means Einstein's relativity is preserved, so do not expect super-fast starships or time machines anytime soon."

In my fire control "A" school I was taught about this phenom in our class on waveguide propagation theory... read the article people...no laws broken... and I learned this 15 years ago...

Speed of light broken, film at eleven.

[dacarr]

In other news, today I changed the light bulb in my Maglite(TM) when it burned out.

OT:Sig

- Hilary Rosen, evil leader of the RIAA, is a lesbian! Does this make her more or less cool?

If she's twentysomething, hot, and an exhibitionist then she's more cool. Anything else, and I just don't care one way or another.

HTH

I can do it!

[Kraft]

Finally I get the chance to try out this thoughtexperiment which has gone on in my mind these last few days. Please correct me if Im wrong.

How to send a superluminal signal:
- get a stick at least 300.000.000 M long
- have a person in each end
- one person pushes the stick (something which can be done in under one second)
- the other person registers the signal

And you have a signal which travelled the distance light does.... in less than one second.

So Bonker, where do I collect the Nobel-prize? :)

Re:I can do it!

According to my physics prof the whole stick doesn't move simultaneously. What happens when you push one end is that the atoms at that end push against the next bunch of atoms and so on. So you get a (sub-light speed) wave travelling along the wave.

Re:I can do it!

[RealUlli]

Actually, that wave travels at the speed of sound in that material. Finding a material with a speed of sound greater than the speed of light is left as an exercise to the reader.

Cheers, Ulli

Re:I can do it!

[raynet]

Except that your push actually moves as a wave because there is empty space between atoms and molecules. To make this work you need a stick made of neutrons and it must be so dense that neutrons touch each other. Oh, but inside neutrons is also space. Better make that stick of quarks. And also quarks seem to made of something smaller..

Unless you can make a stick of material without any gaps, you cannot push it faster than light. And if you could make that stick it would be too heavy and would collapse under it's own weight.

Re:No information can be spread faster than light.

Gossip does

Of Laws and the Flat Earth...

Interesting how various people cling to Einsteins theories.
I wonder when they will be 'overhaulled' in the same way as the concept of a flat earth was.
Merely saying of something that it breaks one of these laws is not therefore proof of impossibility.

Just a thought.

AC

Re:Of Laws and the Flat Earth...

[fgb]

Too bad experimental data seems to consistently confirm Einstein's theories. Except for a few loonies here and there, nobody has taken flat earth theories seriously for the last few millenia.

Re:Of Laws and the Flat Earth...

[interstellar_donkey]

It amazes me too. I think a lot of it has to do with our current academic world's inability to accept change in commenly held 'truths'.

That's not to say that Einstien was wrong, but stepping away from taking Einstien as gospal from time to time couldn't hurt.

Electron speed in wires

[perky]

Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms.

They certainly do not. An electron's mean speed down a wire is of the order of a few centimetres a second. It's the signal that moves much faster.

Counterstrike

[The+Real+Chrisjc]

Finally! I can lower my ping by a whole 3ms!

RAR! :)

Electrons travel much much slower than light

"Electrons usually travel at about two-thirds of light speed in wires, slowed down as they bump into atoms".

Sorry - but that's utter rubbish. The electrons themselves do not travel at such speed, rather the charge itself. From high school physics I recall that electrons in wires travel at centimetres per minute - and not a significant fraction of the speed of light as this post suggests.

Daft but true

The kilogram is the base unit!

http://www.wikipedia.org/wiki/SI_base_unit

Difference between Phase and Group Velocity

The concept that the phase velocity of a wave can travel faster than the speed of light is not new. There are plasmas residing in the upper atmosphere with indicies of refraction less than 1 which lead to phase velocities faster than the speed of light. However, the group velocity of a wave travels at (more like near) the speed of light. Since the information bearing signal is really contained in the group velocity portion of the wave and thereby bounded by Einstein's relativity principle, one cannot achieve superluminal communication with this technique.

Those poor students are going to be wasting a lot of time. *sigh*

Here is a website explaining the mathematical principles stated above,
http://www.mathpages.com/home/kmath210/kmath210.ht m

it's not that hard

[fgb]

Wasn't there a story a few months back about how a scientist slowed the speed of light down to 39mph by passing it though some medium. So, I have no problem exceeding the speed of light in my bmw. ;)

phase velocity and group velocity description

[jonniesmokes]

How about this.

Drop a pebble in a pool of water, a pond, a lake, or a smooth ocean.

Observe. The packet of waves created by the pebble radiate out and as they do - they disperse. Dispersion means that they spread out and make a larger packet over time. This is because the phase velocity and the group velocity aren't the same. If you look closely at the wave packet, you'll notice that the crests of the waves move faster than the whole packet of waves.

This whole thing is a very well understood and old phenomenom. Its easy to get the phase speed to move at a different speed than the group speed. And how fast it is doesn't really mean much - its just an illusion of motion.

I think the same thing happens in microwave guides.

...or even better...

[thebruce]

with infinite mass comes infinite gravity, so basically if you swung a long enough stick fast enough, you'd create a black hole :).

Same kind of things as the argument - what if you took a step forward on a spaceship travelling at light speed? Of course the problem is that you'd have to have a chunk of normal space-time within the ship to do that, or be in some wormhole that breaks standard laws of physics (ala warp bubble?) or else you'd be torn apart by the black hole created by your own ship...

*shrug* food for thought... :)

Re:...or even better...

1) you can't travel AT the speed of light
2) if you did, time would stop for you so there would be no walking on the ship
3) I'll leave the warp bubble & wormhole alone. Do not adjust your cap.

Second comment...

[Kredal]

This is your first, from back in April. Sorry. (:

Re:E=mc^2 - MOD PARENT UP!!!

Now It's been modded to -1.. You moderators are total cocks.

Wow.

[Decimal]

Whew! Imagine how many points that speeding ticket will add to your driver's license!

Dissipation?

[Amazing+Quantum+Man]

If they get speeds that exceed the speed of light in a given medium (say, a wire), won't they have to deal with the energy dissipation caused by Cerenkov radiation?