travelling at the spead of light

[t00fri]

++++++++++++++
An intuitive picture is this: consider two kids (<-> electrons, quarks) sitting each in a boat floating on a lake. If they start throwing a ball (<-> photon , gluons) between them, the two boats experience a force due to energy-momentum conservation and start floating away in various directions. (Note the ball carries energy/momentum over to the other boat).
++++++++++++++

Ah! Fridger, perhaps you could explain as I always wondered about this one: I can see how this analogy explains a repulsive force, but how does it explain an attractive force?

Spiff.

. Spiff, I am afraid that would be asking too much from this simple analogy. Attractiveness or repulsiveness of the forces is in general a truly dynamical issue, requiring full specification of the theory in question. In reality the forces generated by the exchange of photons/gluons are of course much more complex than just reflecting energy/momentum conservation like in the above toy-example of the "floating kids".

Some essentials:

Perhaps you recall the important effects of "vacuum polarization" in classical Electrodynamics due to the (virtual) creation of a cloud of electron-positron pairs around an electrical point charge. Perhaps you also remember that vacuum polarization effects modify the /effective/ strength of the electrical charge visible to another particle (screening!) and thus the strength of their mutual interaction. In Quantum Chromodynamics the analogous effects even change the sign of the force, an effect responsible for the amazing phenomenon of quark confinement to which I alluded further above!

In Quantum Electrodynamics (QED) vacuum polarization makes the force /decrease/ when the distance increases, while in Quantum Chromodynamics (QCD) the force /increases/ with increasing distance of the test charges!!!

As a result, the further you want to separate quarks from each other, the more force (energy) this costs. In order to definitely separate them, you would need infinite energy! This is the phenomenon of Quark confinement.

Bye Fridger

[BlindedByTheLight]

Well, talk about leaving a forum overnight and coming back to chaos! Just wanted to say thank you to everyone for chiming in (especially the professionals)... I will need to re-read this posting several times to make sense of it and let it sink in - as I am most definitely NOT a professional on these matters... just someone keenly interested.

Fridger... hope I haven't expressed thoughts too definititively for ya... every time I write something I think WWFT (what would Fridger think?).

Sadly (or incredibly coolly - depending on one's perspective) these concepts are FAR more complicated than I had imagined... - as clearly the name of the thread incidates...

S

[Spaceman Spiff]

1: I have heard of one theorum that states that all matter has no real mass, but that this is a perception of force, instead.

2: Similarly, the Universe doesn't exist of its own volition, but instead, is the interference between two intersecting planes. Everything we understand, effectively, does not exist, and what does, is simply beyond our experience.

I'm sure several of us have heard of these items too, but what's this got to do with the price of fish, or rather Special Relativity?

Sir, the problem with your contributions is that they seem to show your quibbles with Relativity are based on a misunderstanding of physics, rather than an understanding of it. I mean Fridger's spotted the same errors as me!

It's time to really sit down and think about whether you've understood it all correctly?*

And lastly, I, for one, will not resort to expletives or name-calling to express disagreement.

That's good. No one else did either.

Spiff.

* yes I do, it's the secret of my success.

[BlindedByTheLight]

It's time to really sit down and think about whether you've understood it all correctly?

Sometimes I wonder - speaking generally and NOT AT ALL about anyone specific in this particular thread - whether the issue often isn't whether one HAS understood it correctly... but whether one WANTS to understand it correctly... know what I mean?

[t00fri]

Well, talk about leaving a forum overnight and coming back to chaos! Just wanted to say thank you to everyone for chiming in (especially the professionals)... I will need to re-read this posting several times to make sense of it and let it sink in - as I am most definitely NOT a professional on these matters... just someone keenly interested.

Fridger... hope I haven't expressed thoughts too definititively for ya... every time I write something I think WWFT (what would Fridger think?).

Sadly (or incredibly coolly - depending on one's perspective) these concepts are FAR more complicated than I had imagined...

S

BlindedByTheLight,

certainly, you are approaching things in the right way and I am pleased to try and further clarify remaining questions! I happen to know plenty of theoretical physics, you surely know many other things that I could learn from YOU!

Last not least, I am always happy to meet people with a real interest in natural science....

Bye Fridger

[Spaceman Spiff]

Perhaps you recall the important effects of "vacuum polarization" in classical Electrodynamics ...

Ah! That does make sense, actually! I was wondering if there was a chance you'd raise the possibility of negative mass, (negatively massed balls passed between the boats would make the boats move closer), but it seems we can still get away without this stuff...

Spiff.

[t00fri]

Perhaps you recall the important effects of "vacuum polarization" in classical Electrodynamics ...

Ah! That does make sense, actually! I was wondering if there was a chance you'd raise the possibility of negative mass, (negatively massed balls passed between the boats would make the boats move closer), but it seems we can still get away without this stuff...

Spiff.

Sort of...I was wondering along similar lines when trying to twist that toy-example into attraction.

Our "reference kid" would have to throw the ball /away/ from the other kid and make it come back to it via infinity . So we should better try to play that game in a /compact/ space.

Hence we need to place the boats on the surface of a sufficiently small sphere (thats a 2d compact space), assumed to be an ocean. So one kid could throw the ball away from the other one all around that sphere until the second kid picks it up again arriving from the "wrong" direction....

No idea whether this is blunder or not. But my beer just told me that it enjoys the thought

cheers,
Bye Fridger

[Cham]

Well, just to add an idea to that repulsive/attraction force :

The virtual particles are out of "their mass shell", isn't ? So they can travel back in time. Because of Heisenberg uncertainties, there's no problem with energy violation and causality. Maybe the virtual quanta are creating a repulsive force while going forward in time, and then they are creating an attractive force while going backward in time.

If the two boys are repelling themselves while kicking the ball, if the ball goes back in time, the boys are attracting. After all, an attraction is a repulsion in the reverse order.

Ppppfffrrtt !

[t00fri]

Well, just to add an idea to that repulsive/attraction force :

The virtual particles are out of "their mass shell", isn't ? So they can travel back in time. Because of Heisenberg uncertainties, there's no problem with energy violation and causality. Maybe the virtual quanta are creating a repulsive force while going forward in time, and then they are creating an attractive force while going backward in time.

If the two boys are repelling themselves while kicking the ball, if the ball goes back in time, the boys are attracting. After all, an attraction is a repulsion in the reverse order.

Ppppfffrrtt !

I have a better idea!

Just replace your two boys by a boy and a GIRL and they will attract each other NO MATTER how the ball is thrown!

Again my beer tells me that it liked that extremely simple idea

Bye Fridger

PS: More seriously:

The virtual particles are out of "their mass shell", isn't ? So they can travel back in time. Because of Heisenberg uncertainties, there's no problem with energy violation and causality.

Yes exactly so...

[Cham]

I have a better idea!

Just replace your two boys by a boy and a GIRL and they will attract each other NO MATTER how the ball is thrown!

Again my beer tells me that it liked that extremely simple idea

Hmmm, not so fast ! You are describing the interaction between matter and anti-matter. What will happens when the boy-girl pair reach full contact !, Hmm!? What happens ?

[t00fri]

Hmm this ball game in a 2d compact space (surface of a sphere) is kind of intriguing.

Depending on how you look at it, the force from throwing the ball appears attractive or repulsive. It all depends which way around the sphere you measure the distance between the 2 boats!



Bye Fridger

[Spaceman Spiff]

I was thinking of negative mass from something called the relativistic energy-momentum equation: E?? = p??c?? + (m0c??)??. A lecturer once commented when solved for m, this equation allows for solutions with negative mass, yet no negative mass has ever been observed...

It's one of those things I wonder about.

Spiff.

[Spaceman Spiff]

Cham,

Spaceman Spiff,

there are so much misunderstanding and confusion in your response, I will not go into all the details here. This is just too discouraging.

I think I've made myself as clear as I can, notwithstanding I am wrong, and it's better to be clear and wrong than muddled, right or wrong. I strive for clarity so that my mistakes can be spotted and corrected. I note that you came in for more correction by Fridger than I, though I've had to voluntarily correct myself regarding gluon rest mass.

I'm certainly not throwing all you say into the 'bs' bin, but I also think my comments about your equations hold, and note that the point where I really got exasperated with you was about you thinking that Einstein didn't know about photons when he published SR.

Indeed, I find your writings (on this topic) very confused and muddled. That BlindedByTheLight had to re-ask several times might show this, and statements like these below really don't help me understand.

Photon don't have a mass. But it has energy and momentum !

How does something have momentum but no mass?

The formula [ E = mc?? ] still apply to a photon, but then, the "m" doesn't mean anything. It may be called "mass of the photon", but this is really arbitrary and doesn't have any experimental meaning without gravity.

Please explain further why the mass of the photon has no experimental meaning without gravity.

I have to insist, the formula E = m c^2 has a clear physical meaning ONLY IN THE CASE OF MATTER (massive particles and objects). IT IS AMBIGUOUS for photons. You may use it, if you wish, to say that a photon has a mass if you write m = E/c^2, but this is an abuse of language and has no physical meaning.

Can I or can't I apply this equation to photon energy or not? Why is it only to be applied to rest mass? Well, you're repeating and insisting, but not explaining...

Equation (1) doesn't have any physical meaning because it's simply a definition. It is not a RELATION between TWO observable things ("m" isn't observable, or measurable if you prefer). Equation (2) IS a relation between two independant entities, which can BOTH be subject to experiments. Just replace (1) into (2) so "m" vanish entirely from the equation. What remains are "E" and "m_0", which are the true observable things here.

Aren't E and m0 not observables? You have to calculate those from observed effects. In fact, I think energy (like momentum) is never an observable in physics, it's always derived from other observables. In this case, relativisitic mass is more observable than rest mass. You apply the Lorentz transform to what mass you measured, and get the rest mass.

OK, on with the rest...

MASS DO NOT INCREASE WITH VELOCITY.

Ah, you're one of them what quibbles about the whether the Lorentz transform should only be allowed to apply as a time dilation only, or a space contraction only, but never as an equivalent change in mass. Or do you also want to ban the idea of time dilation and insist it's only space contraction, or vice versa?

I think you'll find the quantity m, as in 'relativistic mass', is just as observable as any other mass quantity in the usual way, the experiment transduces the effects of particle mass into a length or time measurement. One could think of the Lorentz transform as a correction factor due to the particle velocity v relative to one's experiment at the time, because the relativistic particle's time dilation or space contraction causes it to interact with the experiment differently, and that causes us to measure a different mass. It's just an equivalence, but not meaningless. Meaningless is like dividing by zero.

Anyway, what I wrote about was what you find if you try and experimentally measure masses of speeding particles: you will find a higher mass which is the rest mass factored by the Lorentz transform. This site seems to back me up: Mass-energy equivalence ( http://en.wikipedia.org/wiki/Mass-energy_equivalence ). It also points out that the kinetic energy put into the accelerated particle does indeed add mass to the particle.

As I have shown previously, the "m" may be eliminated from all equations. And it even don't shows without ambiguity in the relativistic Newton equation :

But you are simply showing that what others conveniently call relativistic mass is just the rest mass factored by the Lorentz transform. This is just the 'mass dilation' way of thinking about it.

Some physicists point out that momentum doesn't really exist, and that it's not a meaningful physical quantity: it's just a useful book-keeping item for tracking motion. Some also claim energy doesn't really exist, and that it too is just an accounting tool in our theories... Some even say (as d.m.falk mentioned) that mass doesn't really exist, that everything must boil down to lengths or times. Fine, but if there is actually no such thing as mass, why do I displace my sofa when I sit on it?

In any experiment, you cannot measure the particle's mass, while the particle is in motion. IT IS ITS KINETIC ENERGY. The only kind of mass you can measure, is the "rest mass" (or "proper mass", or whatever) while the particle is instantaneously at rest relative to the observer.

I think measuring the mass of a particle in motion is not an impossible case. One observes how one's experiment effects that very motion to extract the mass. How do they measure the masses of all those exotic sub-atomic particles flying though the bubble chambers at CERN? How do you actually directly measure the kinetic energy of something, rather than mass, or velocity? Surely, the relativisitic mass is measured, then the appropriate rest mass is worked out?

About the photon : ... So you can't measure its "mass" without gravity. Even with gravity, the "m" does not have a clear physical meaning for a photon.

So I can't measure the momentum of any photon without gravity, or even with it? What's this Compton scattering ( http://hyperphysics.phy-astr.gsu.edu/hb ... ptint.html ) stuff then? Where does that radiation pressure come from then?

What the hell is "electromagnetic energy" anyway ? From Maxwell theory (which I know enough to teach it all year long), the total energy of some electromagnetic wave is given by the volumic integral of its electric and magnetic density over all volume of space (I will not write the equations here). IT IS KINEMATICAL AND POTENTIAL ENERGY.

Something like this: http://en.wikipedia.org/wiki/Electromagnetic_energy.

Kinetic energy specifically refers to the energy stored in a massive body (as in finite, non-zero rest mass) due to motion, which is why the equation contains both m and v. It can be exchanged for potential energy in a gravitational field, or potential energy in an electrical field. What rest mass in a photon is moving in the oscillating electrical field so as to contain kinetic energy? (I'm not sure what you mean by kinematical, but I wonder if you mean kinetics, which does not consider mass, force or energy, only motion).

I did you a favour: I searched for the terms "photon kinetic energy" on Google. I got one result, not prominent, but try it: Gamma Rays and Kinetic Energy ( http://www.newton.dep.anl.gov/askasci/p ... y00930.htm ).

Lo and behold, two people who say gamma rays have kinetic energy. But...

The first guy doesn't impress me. He supposes that if a photon slowed down by a tiny bit, it would lose all its kinetic energy, yet, it's travelling at near light speed. So, it has zero kinetic energy because it has no rest mass. This is what I say anyway! How does kinetic energy arise at the speed of light for a (rest) massless particle, and no other speed?

The second guy uses maths. Except he applies the m of ??mv?? to the photon's (non rest) mass (contradicting the first guy), and gets the m from ... m = E/c?? ! Then he finds that only half of the photon's energy is kinetic, and he isn't sure if the energy of the electric and magnetic field (what I referred to as electromagnetic energy) makes up the other half, or his application is invalid and electromagnetic energy makes up all the energy of the photon...

I'm not convinced.

Timelessness has NOTHING to do with interference pattern.

You missed my point. You give the standard probability wave interference pattern argument. What I'm asking about is when there's only one photon.

Spiff.

P.s., yes, you can be exasperated at my idiocy too, but please do include clear explanations as to why if you can spare the time.

[t00fri]

I was thinking of negative mass from something called the relativistic energy-momentum equation: E?? = p??c?? + (m0c??)??. A lecturer once commented when solved for m, this equation allows for solutions with negative mass, yet no negative mass has ever been observed...

It's one of those things I wonder about.

Spiff.

Spiff,

you presumably mean negative mass^2, i.e. imaginary mass.

What you wrote down is just the so-called "mass-shell condition" to which Cham also referred above. In relativistically covariant notation using an energy-momentum 4-vector
P = (E, p1,p2,p3), the above equation just reads in Minkowski space (metric g_mu_nu = diag(1,-1,-1,-1))

Code: Select all

P_mu P^mu = P^mu.g_mu_nu. P^nu
                   = P_0^2 - P1^2 - P2^2 - P3^2
                   = m^2                                    (*)


with summation over mu,nu understood.
(Note: particle physicists always use units h-bar=c=1)

If the particle is outgoing and free it's always "on mass shell", satisfying (*), but intermediate particles (like exchanged photons, gluons) may well be off-mass shell or "virtual" as we say.
This is a consequence of the quantum nature of the physics. Such particle masses may then be imaginary (though unobservable!).

Certainly the above mass-shell condition holds for free massless photons since its relativistic, implying
for m(photon) =0,

E^2 = p1^2+p2^2+p3^2 (h-bar=c=1)

Please also note that the concept of a "photon rest mass" is ill-defined, since the photon can never be transformed to rest by means of a Lorentz transformation! The photon has always the speed v=c in any system.

For a heavy particle with mass m^2 >> p1^2+p2^2+p3^2 you may perform a non-relativistic expansion of equation (*), in order to recover a familiar law:

E=sqrt(m^2+p^2) = m*sqrt(1+p^2/m^2) ~ m+p^2/(2*m) +... = m + m/2*v^2 + ...

Aha, note the familiar kinetic energy m/2 v^2 as well as the rest energy =m. Clearly, for photons this non-relativistic expansion is never possible.

Etc...

Bye Fridger

[Cham]

Spiff,

visibly, you do not understand the Lorentz transformations. They do NOT apply to mass ! By definition, proper mass m0 is a relativistic invariant. It's a "Lorentz scalar".

Second, momentum and energy are quantites very weakly related to mass. I must insist :

YOU CAN HAVE KINETIC ENERGY AND MOMENTUM WITHOUT MASS IN MOTION

The best example is the photon. We have E = h f, but we CAN'T write E = gamma m0 c^2 for the photon, because v = c (so gamma = infinity) AND m0 = 0. The product gamma TIMES m0 is ill defined in this case. So there is energy, but NO mass in motion here. It's the same with momentum.

This is really simple ! Can you understand that ?

[Spaceman Spiff]

Spiff,

you presumably mean negative mass^2, i.e. imaginary mass.

OK, Fridger, I see that your post got edited twice so far, so maybe you were making corrections for the beer* talking last night?

Anyways, I thought an imaginary mass squared would give a negative mass, but I don't dismiss that idea that negative mass is just a figment of the imagination... . But the lecturer meant negative mass such that if you had a lump of it, it would be repelled by the gravity of a positive mass. But wouldn't gravity by space-time curvature not care about the value of the mass?

Right, well, sad to say but my brain melted in those General Relativity lectures, so I need to go away and pick it all up again. All that prestidigitation with tensors... Never heard of 'mass shell' either...

Still, so the 'classical' term for kinetic energy falls out for heavy particles, but not for photons, and the way that this is wrtten with m being the rest mass is like Cham's statement that m0 is the only true mass and velocity just adds kinetic energy to it (which is itself a power series...). But, if the energy of the photons equals the sum of squares of momenta only, do photons have kinetic energy? Is that what hf is? It seems to me some might call it kinetic energy simply because they extend the name 'kinetic' to a form of energy that doesn't have its own obvious name...

Spiff.

* What beer do you recommend for improved insight while I read up on relativity, the beer atom, etc? Do you get Pf??ngst?¤dter up there yet?

[Spaceman Spiff]

Spiff,

visibly, you do not understand the Lorentz transformations. They do NOT apply to mass !

Lovely. What do Lorentz transformations apply to?

This is really simple ! Can you understand that ?

No, Cham, because your arguments just remain insistence, assertion and contradiction. Assertive statements can be tremendously simple, but may not convey any understanding. That is, I'm not getting any convincing arguments from what you write that I can pass on to others, e.g., momentum that exists without mass.

I must insist :

... see?

YOU CAN HAVE KINETIC ENERGY AND MOMENTUM WITHOUT MASS IN MOTION

You're shouting again. Perhaps if you insisted more with bold font, I'd have finally been converted, I mean understood.

The best example is the photon. We have E = h f, but we CAN'T write E = gamma m0 c^2 for the photon, because v = c (so gamma = infinity) AND m0 = 0. The product gamma TIMES m0 is ill defined in this case. So there is energy, but NO mass in motion here. It's the same with momentum.

So doesn't this end up as a circular argument or at least a redefintion?


"There can be kinetic energy without mass"
"Photons have energy"
"I call this energy 'kinetic energy' "
"Photons have no rest mass"
"Photons have no mass due their energy, because I say m = E/c?? doesn't apply"
"Therefore photons have kinetic energy while having no mass"
"QED"

Even if you are right, what understanding am I supposed to glean from that?

Meanwhile:
- Do you still insist the photon wasn't known of when Einstein published SR in 1905?
- How can equation 3 not apply to a photon, yet be used to derive equation 6?
- Do you understand "light travels at c in a vacuum" to be a prediction of SR, or an assumption of it?

Spiff.

P.s., <squeaky-voice>We of the Mass Dilationist Liberation Front denounce your opressive scientific orthodoxy!</squeaky-voice>

[Fightspit]

I think it is preferable to have an Astro-physician to do a lesson to explain all things about Relative's laws.

[t00fri]

I think it is preferable to have an Astro-physician to do a lesson to explain all things about Relative's laws.

Why are you requesting an Astro-physicist for this very basic issue that every graduate physics student has to know forth and back??

Particle physicists use and precision-test special relativity /EVERY DAY/ in their multi-billion $ particle accelerators , since we accelerate electrons, protons, etc to 99%+ percent of the speed of light!

For example... Elementary particles tend to have a finite life time after which they decay into other particles. If they are accelerated to 99% of the speed of light their known life time (at rest) will be time dilated tremendously. Our experimentalists measure these time dilatations with extreme precision in their experiments.

For particle /theorists/ special relativity is 'bread and butter' really...No one would get a job without knowing every detail about it

There is NO other branch of science that has more to do in daily life with special relativity. Just believe me

Still want an astro-physicist??

Bye Fridger

+++++++++++++++++++
PS: Since I am a theoretical particle physicist rather than an astro-physicist by profession, I just deleted a mini-lecture on special relativity that I had prepared, in order to comply with your request above...
+++++++++++++++++++

[ajtribick]

"There can be kinetic energy without mass"
"Photons have energy"
"I call this energy 'kinetic energy' "
"Photons have no rest mass"
"Photons have no mass due their energy, because I say m = E/c?? doesn't apply"
"Therefore photons have kinetic energy while having no mass"
"QED"

Here's how I see it (people more knowledgeable than me, please correct me if I'm wrong)

The problem with E=mc?? is that it only applies when the mass is stationary in the rest frame these quantities are measured - at high velocities it breaks down.

One way of resolving this is to say that the value of m changes with velocity, according to the following relationship:

m=??m0

Where m0 is the mass as measured when the object is at rest in the observer's reference frame,
and ??=1/???(1-v??/c??)

This quantity, m can now be put into the equation E = mc?? .

However this equation is deceptive! It makes the error in applying it to photons (and other massless particles) much harder to spot.

The fault in the reasoning is saying that the particle is massless, so m=0. This is an error!

A massless particle has m0=0.Big deal you might think, because this would still yield m=0, because
m=??m0 and any number multiplied by zero is zero.

You have forgotten one thing however: because a photon is travelling at v=c, so the ?? factor is infinite. So m is a product of zero (the rest mass of the photon) and infinity (the gamma factor). And 0*??? is not well defined, which means you cannot say that the value of m=0, the value is not defined, so you cannot use it in the expression E=mc??

Thus the expression does not apply to photons.

-----

The preferred approach is to discard m altogether and only work with m0. This means that the expression for the energy of the object must be rewritten:

E = ??m0c??

This expression makes it much harder for you to make the mistake which is easily made when the ?? is hidden away inside the term m - it forces you to take the ?? into account.

-----

I hope that explanation is both correct and clear.