Don't you know that photons are MATTER?

In summary: Tom, I can find you a dozen quotes from your own posts that say exactly the opposite of what you seem to be saying now. You usually say "use the mass that works best for the problem at hand", and in fact I've never seen you say anything else. Why the sudden change of heart?I can find you (and have posted in this forum) quotes from several textbooks and dictionaries that say just the same thing. But I can't find any reputable source (that I own or can find) that says "the concept of 'relativistic mass' is deprecated". Oh, except for John Baez, but he's not an authority on physics.I
  • #1
Royce
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Quote originally by Alexander from religion forum.

"Don't you know that photons are MATTER? Being bosons they obey different statistics than fermions (electrons, protons), rather than that have same properties other particles have - they are wavy (as all particles), have spin, momentum, energy. What makes you think that photons are not matter?

By the way, if you place about 3x1035 of green photons in a massless box, the box will acquire mass 1 kg. (Both inertial mass and gravitational mass)."

Is this true? The last that I read from books published as late as 2002, photons were still considered quantum packets of energy with zero rest mass and traveled at the speed of light, not matter which has mass and therefore cannot travel at the speed of light.
 
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  • #2
Through Quantum Mechanics we find that they can be both matter and a wave. So they can have mass and still travel at C as a wave.
 
  • #3


Originally posted by Royce
Quote originally by Alexander from religion forum.

"Don't you know that photons are MATTER? Being bosons they obey different statistics than fermions (electrons, protons), rather than that have same properties other particles have - they are wavy (as all particles), have spin, momentum, energy. What makes you think that photons are not matter?

By the way, if you place about 3x10^35 of green photons in a massless box, the box will acquire mass 1 kg. (Both inertial mass and gravitational mass)."

Is this true? The last that I read from books published as late as 2002, photons were still considered quantum packets of energy with zero rest mass and traveled at the speed of light, not matter which has mass and therefore cannot travel at the speed of light.

Part of the discussion is simply about how contemporary scientists use words. ("matter"(nonzero rest mass) vs. "electromagnetic radiation"(zero rest mass) "mass"(inertia at rest))

Part of the discussion is substantitive, not merely semantic.

As mainstream physicists talk (Tom confirmed this in another thread) "mass" means rest mass. Photons do not have mass. They are not ordinarily described as matter. Alexander is using words in an eccentric personal way if he calls them matter.

On the other hand putting energy into a box certainly increases its inertia! A good deal of the inertia of the sun, for example, is due to the radiation energy in it and the kinetic energy----beyond what you would get if you took all the particles out and weighed them separately.

This is an unintuitive kink in physicists language. A photon has zero mass, but if you put it in a box the box will then have more mass. There is an intuitive failure of the "additivity" picture. that is just how it is---how conventional physics language has evolved.

If you focus on energy, everything will be all right verbally. The equation E = mc^2 only applies to bodies at rest (as Tom's recommended Special Relativity text states very clearly).
You can add the energy of the light to the energy of the box and get a new energy for the box and since the box is at rest you can measure its inertia and also use E = mc^2 to calculate its new inertia and get the right answer.

You just can't add inertias (as if the light were a material) because then you get the wrong answer.

Now there is the substantive question. It would be good to check Alexander's statement that the inertia conferred by
3E35 green photons is a kilo. (they don't have inertia but putting them in the box, which is at rest, gives the box that much)
In natural units (to make calculating quick) the typical energy for green photons is 2E-28
so the energy of 3E35 photons would be 6E7, or 60E6
This is 60 x 22 grams or 1300 grams. So if Alexander said that
2E35 green photons contribute 1000 grams to the box then he is to be congratulated! He is only a bit on the low side----just fine for back of envelope.
Maybe his greens are less energetic and more yellowish than
the ones I am thinking of! :smile:

The substantitive question is probably more important than the verbal one. If he wants to call light a form of matter (which ordinary working physicists would not) then just let him---he probably doesn't do any harm by having his own verbal habits.
 
  • #4
But what of "gravitational mass"? We've gone 'round about this before in the Forums, but does the extra inertia of the box cause it to have a stronger gravitational pull? This question is at the center of all the "Relative Black Holes" discussions; does relativistic mass have gravitational influence?
 
  • #5
Originally posted by LURCH
But what of "gravitational mass"? We've gone 'round about this before in the Forums, but does the extra inertia of the box cause it to have a stronger gravitational pull? This question is at the center of all the "Relative Black Holes" discussions; does relativistic mass have gravitational influence?

there is a considerable effort being made in the physics community to discourage the use of "relativistic mass" as a concept----einstein himself decided against it and contemporaries from Tom of PF to John Baez of Usenet have deprecated its use

please don't say "does relativistic mass have gravitational influence?"

But the real physics question is DOES ENERGY EXERT A GRAVITATIONAL PULL? And the answer is absolutely yes!
The Einstein equation is not based on mass but on energy.
The righthand side of

Gmu,nu = 8pi Tmu,nu

is essentially an energy density

For sure having light in the box contributes to its
gravitational attractiveness! Light is energy, so it has to.
Mass is not at the root of gravity so bringing in the mass issue
is sort of a red herring, gets things out of focus.
 
  • #6
there is a considerable effort being made in the physics community to discourage the use of "relativistic mass" as a concept----einstein himself decided against it and contemporaries from Tom of PF to John Baez of Usenet have deprecated its use

And there is a considerable effort being made in the physics community to *EN*courage the use of "relativistic mass" as a concept.

re - "The Einstein equation is not based on mass but on energy." - It;s based on the Equivalence of mass and energy.


The righthand side of

Gmu,nu = 8pi Tmu,nu

is essentially an energy density


Not quite - The right hand side is a statement regarding relativistic mass - but in its most general form. You happened to use units for which c = 1 so you've hidden the mass-energy equivalence. The right side boilds down to being equivalent to M= E/c^2

Look in MTW - When they introduce the stress-energy-momentumThey state quite specifically that energy = mass

Pete
 
  • #7
By the way, box don't even need to absorb photons.

If you put 3x1033 green photons in a mirrored box, the box will still accure same 1 kg of gravitational and inertial mass.

Easy to prove mathematically.
 
  • #8


Originally posted by marcus


As mainstream physicists talk (Tom confirmed this in another thread) "mass" means rest mass. Photons do not have mass.

Photons can't have "rest" mass because they don't exist at rest.

Yet they have both ineria and gravity.
 
  • #9


Originally posted by Alexander
Photons can't have "rest" mass because they don't exist at rest.

Yet they have both ineria and gravity.

Why don't they exist? Where did you get this idea from? Not that I haven't seen/heard it before nor do I neccesarily disagree with it.

Pmb
 
  • #10
From experiment.
 
  • #11
Originally posted by Alexander
From experiment.

Sorrry. When I read that originally I misunderstood. I thought that you mean that photon's don't exist.

However there is at least one Nobel Prize winner who claims that photon's don't exist, i.e. Willis Lamb

Pmb
 
  • #12
You misunderstood. What I heard from him (in person) was: "We don't know what exactly is a photon."
 
  • #13
Originally posted by Alexander
You misunderstood. What I heard from him (in person) was: "We don't know what exactly is a photon."

It would be very hard form me to misunderstand what he wrote.

From "Anti-photon," W.E. Lamb, Applied Physics B 60, 77-84 (1995)
Abstract It should be apparent from the title of this article that the author does not like the use of the word "photon", which dates back from 1926. In his view, there is no such thing as a photon. [...]
{He goes on to that effect, i.e. "comedy of errors," etc}

How did I misunderstand that?

He has a comments online at

http://www.aro.army.mil/phys/proceed.htm

There is no such thing as a photon. There is a quantum theory of radiation, and conservation laws for energy, momentum and angular momentum are built into it. Only in very simple special cases, hard to realize in practice does it make sense to talk about photons.

I find that last part kinda weird. If it makes sense in at least one case then how can he say there is no such thing!?


Pmb
 
  • #14
What he means is that a photon simply is a mathematical object which can not be equalized with a billiard ball except for rare cases.
 

1. What is a photon and why is it considered matter?

A photon is a fundamental particle that is the basic unit of light and all other forms of electromagnetic radiation. It is considered matter because it has both energy and momentum, which are characteristics of matter.

2. How can something that has no mass, like a photon, be considered matter?

While photons do not have rest mass, they still have energy and momentum, which are properties of matter. In fact, the energy of a photon is directly proportional to its frequency, and its momentum is proportional to its wavelength.

3. Can photons be affected by gravity if they are considered matter?

Yes, even though photons have no mass, they still have energy and momentum, which can be affected by gravity. This means that light can be bent by the gravitational pull of massive objects, such as stars and black holes.

4. How do photons behave differently from other types of matter?

Unlike most matter, photons do not have a rest mass, which means they always travel at the speed of light. They also do not experience time or age, and they do not interact with other particles through the strong or weak nuclear forces.

5. Are photons the only type of matter that can travel at the speed of light?

Yes, photons are the only particles that can travel at the speed of light. This is because they have no rest mass, which allows them to reach the ultimate speed limit in the universe. Other types of matter with mass can never reach the speed of light.

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