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Mass of Light

IsaacAsimov

By IsaacAsimov
in Classical Physics

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swansont
swansont

That's not consistent with the (flawed) framing of the problem. If you use relativistic mass, the value will be frequency dependent. (besides, the smallest value is zero)     True, but that does

swansont
swansont

All massless particles travel at c and all particles which travel at c are massless. This follows from the math, which is where all the physics is.   A semantic argument doesn't change any of that.

ajb
ajb

The equation swansont gave applies in all inertial frames, you do not need a rest frame for that equation to make sense.  In Minkowski space-time, there are no inertial coordinates such that a pho

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michel123456

michel123456

Posted
Posted (edited)

I don't understand (once again).

a photon has no rest mass, O.K.

But the photons that we catch (and the others that we don't catch) are not in state of rest, thus they have mass, be it relativistic. Those photons that travel at C exert and are sensible to gravity, as much as I know. Correct?

Edited by michel123456
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ajb

ajb

Posted
Posted

But the photons that we catch (and the others that we don't catch) are not in state of rest, thus they have mass, be it relativistic.

By catch you mean they are destroyed and their energy is absorbed by some medium?
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swansont

swansont

Posted
Posted

I don't understand (once again).

a photon has no rest mass, O.K.

But the photons that we catch (and the others that we don't catch) are not in state of rest, thus they have mass, be it relativistic.

 

No. Because in OUR frame, i.e. where we are doing the measurement, E = pc. There is nothing left over. Thus, m = 0. This is true regardless of what specific name we give that term.

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michel123456

michel123456

Posted
Posted

By catch you mean they are destroyed and their energy is absorbed by some medium?

Oh sorry, no, I ment "observe". The Universe is full of photons that travel in all directions and do not reach the Earth & our eyes.

 

No. Because in OUR frame, i.e. where we are doing the measurement, E = pc. There is nothing left over. Thus, m = 0. This is true regardless of what specific name we give that term.

A photon has not even relativistic mass?

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Przemyslaw.Gruchala

Przemyslaw.Gruchala

Posted
Posted (edited)

Oh sorry, no, I ment "observe". The Universe is full of photons that travel in all directions and do not reach the Earth & our eyes.

 

You can't observe photon that wasn't absorbed by your eye.

By observation you're absorbing photons from world.

Photon detector in double slit experiment is so good in absorption that whole effect is disappearing.

Edited by Przemyslaw.Gruchala
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D H

D H

Posted
Posted

I don't understand (once again).

a photon has no rest mass, O.K.

But the photons that we catch (and the others that we don't catch) are not in state of rest, thus they have mass, be it relativistic. Those photons that travel at C exert and are sensible to gravity, as much as I know. Correct?

 

Stop calling it "rest mass". It's just a name, and you are getting far to hung up on that name. Use the term "invariant mass" instead, where "invariant" means "the same in all inertial frames of reference."

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michel123456

michel123456

Posted
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Correcting post #54

 

I don't understand (still).


A photon has no invariant mass, O.K.


But the photons that we observe (and the others that we don't)
are not in state of rest. They have energy and momentum. Those
photons that travel at C in all directions exert and are sensible to gravity, as much as I
know. Correct?

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D H

D H

Posted
Posted

So what's the question? i would be very amazed if astronomers did not count for those gravitational effects in their calculations.

 

Why should they?

 

That light is subject to gravitation, sure. Astronomers see this in eclipses and in images such as this:

 

eincross_wht.gif

 

That's the Einstein cross.

 

That light gravitates, why should they? The effect is incredibly small, much smaller than observational errors, and much smaller than numerical errors in the case of a simulation. There's no reason to include this effect.

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swansont

swansont

Posted
Posted

There's also the fact that isotropic radiation, such as the CMWB, does not contribute to gravitational effects outside of the radius in question.



Nobody cared making an evaluation?



That is 13 billion years of burning stars radiation + the radiation of the BB that did not change in massive particles.



I am amazed.

 

At what, exactly?

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derek w

derek w

Posted
Posted

quote from Wikipedia :-

QUANTUM FOAM.

According to Einstein's theory of relativity,energy curves space time.This suggests that-at sufficiently small scales-the energy of these fluctuations would be large enough to cause significant departures from the smooth space time seen at larger scales,giving space time a "foamy" character.

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swansont

swansont

Posted
Posted

That nobody cared making an evaluation of the gravitational effect of light.

 

That's not what happened. That's not what a physicist generally means by "ignore" in this context.

 

The sun converts about 4 billion* kg/s into other forms of energy, which is eventually radiated away at c. In the volume inside the earth, that's 500 s of travel, or the equivalent of 2 x 10^12 kg. The mass of the sun is 2 x 10^30 kg. Ignoring the effect of the light gives an error of a part in 10^18 in terms of effect on the earth. At that point you ignore it, unless you are doing an experiment where a part in 10^18 matters.

 

Not including in a calculation is not the same as refusing to consider.

 

*edit to correct value and subsequent numbers

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michel123456

michel123456

Posted
Posted (edited)

That's not what happened. That's not what a physicist generally means by "ignore" in this context.

 

The sun converts about 4 kg/s into other forms of energy, which is eventually radiated away at c. In the volume inside the earth, that's 500 s of travel, or the equivalent of 2000 kg. The mass of the sun is 2 x 10^30 kg. Ignoring the effect of the light gives an error of a part in 10^27 in terms of effect on the earth. At that point you ignore it, unless you are doing an experiment where a part in 10^27 matters.

 

Not including in a calculation is not the same as refusing to consider.

I believe you but I don't understand your calculation. The sun radiates in all directions. What the Earth receives is a tiny part of it. Where do the 500s come from?

 

-------

mm. the 500s is the orbital radius. So you are estimating the volume of the cylinder from Earth to the Sun.

------

Isn't there something missing?

Edited by michel123456
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imatfaal

imatfaal

Posted
Posted

That's not what happened. That's not what a physicist generally means by "ignore" in this context.

 

The sun converts about 4 kg/s into other forms of energy, which is eventually radiated away at c. In the volume inside the earth, that's 500 s of travel, or the equivalent of 2000 kg. The mass of the sun is 2 x 10^30 kg. Ignoring the effect of the light gives an error of a part in 10^27 in terms of effect on the earth. At that point you ignore it, unless you are doing an experiment where a part in 10^27 matters.

 

Not including in a calculation is not the same as refusing to consider.

 

 

"The sun converts about 4 kg/s into other forms of energy" - I am not disputing that number but it does blow my mind. I have looked after oil-tankers that burn almost as kilograms of fuel oil per second just to move across the ocean! It just shows the complete difference in scale between chemical energy burning and the energy release in nuclear reactions. All life on earth (well barring hydrothermal vents etc) - that lovely sunshine...waxes lyrical for a while about nature... all from 4kg per second. Amazing

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