Antimatter at the Speed of Light: Uncovering the Mysteries

  • Thread starter crapola77
  • Start date
  • Tags
    Antimatter
In summary: There has been no direct testing done on releasing energy from breaking the nuclear bonds of antimatter, however it is theoretically possible. Anti-matter does have a very strong force, enough to break the bonds of atoms.
  • #1
crapola77
23
0
what happens to anti matter traveling the speed of light?
 
Physics news on Phys.org
  • #2
Antimatter particles have non-zero mass, so they cannot travel at the speed of light.
 
  • #3
doesnt matter also have a non-zero mass
 
  • #4
crapola77 said:
doesnt matter also have a non-zero mass

Which is why they also don't travel at c.

There's no difference between matter and antimatter in this respect.

Zz.
 
  • #5
so is it theoretically possible to convert antimatter into energy, the way matter can be converted into energy such as a nuclear reaction?
 
  • #6
crapola77 said:
so is it theoretically possible to convert antimatter into energy, the way matter can be converted into energy such as a nuclear reaction?

In [itex]E = mc^2[/itex], you'll note that that "m" doesn't discriminate between matter and antimatter.

Zz.
 
  • #7
crapola77 said:
so is it theoretically possible to convert antimatter into energy, the way matter can be converted into energy such as a nuclear reaction?

A very easy way of turning anti-matter into energy is to simply let it escape its magnetic bottle. The moment it contacts matter, both will be converted - rather enthusiastically - into gamma radiation.
 
  • #8
i was under the impression that matter antimatter annihilation resulted in space, which is to say that if one had a closed system of space which contained a particle of matter and a particle of antimatter and they annihilated the net amount of space in the system would increase
 
  • #9
crapola77 said:
i was under the impression that matter antimatter annihilation resulted in space, which is to say that if one had a closed system of space which contained a particle of matter and a particle of antimatter and they annihilated the net amount of space in the system would increase
Not to my knowledge. no.

The result would be a flash of gamma radiation.
 
  • #10
is there any fraction of matter left over after annihilation, or is it a total conversion of the matter involved into energy
 
  • #11
crapola77 said:
i was under the impression that matter antimatter annihilation resulted in space, which is to say that if one had a closed system of space which contained a particle of matter and a particle of antimatter and they annihilated the net amount of space in the system would increase

Where do you actually read these things?

On second thought, maybe I don't want to know...

Your impression is not correct. If it is, then Fermilab would be producing "space" a gazillion times a second right now.

Zz.
 
  • #12
crapola77 said:
is there any fraction of matter left over after annihilation, or is it a total conversion of the matter involved into energy
You could of course, have incomplete mixing of the two reactants, but that's not the same thing.

For every atom of matter that combines with an atom of antimatter, you will get an amount of energy released defined by E=mc^2, and no matter left over. It is a 100% conversion of matter to energy.
 
  • #13
lol sorry z, i don't remember where or when exactly i got confused about that. 100% energy conversion? so if physicists can create anti matter, and use it to annihilate matter into what i assume is a massive amount of gamma radiation on a scale with the atomic bomb, isn't that basically the same or better as cold fusion?
 
  • #14
crapola77 said:
lol sorry z, i don't remember where or when exactly i got confused about that. 100% energy conversion? so if physicists can create anti matter, and use it to annihilate matter into what i assume is a massive amount of gamma radiation on a scale with the atomic bomb, isn't that basically the same or better as cold fusion?

You're forgetting that it takes A LOT OF EFFORT, under normal terrestrial condition, to create antimatter and to contain them. This is a highly inefficient way to generate energy.

Zz.
 
  • #15
in Stephen Hawking new series on the sci channel aptly named "master of the universe" he says "in empty space this energy takes the form of pairs of subatomic particles that emerge out the void, exist for less than a nano second and then annihilate each other. so the idea is, out of nothing if you like, a pair of particles is created and then exists for a short time and then annihilates and that's happening through out space" how is this possible? and why doesn't this light up the universe with the resulting gamma radiation?
 
  • #16
because i was under the impression that annihilation created space, i assumed that this explained the expansion of space
 
  • #17
and also
DaveC426913 said:
A very easy way of turning anti-matter into energy is to simply let it escape its magnetic bottle. The moment it contacts matter, both will be converted - rather enthusiastically - into gamma radiation.

but has there ever been any testing done on antimatter in the form of breaking the bonds of the nucleus to release energy as with the atomic bomb. does anti atom have a strong force?
 
  • #18
crapola77 said:
in Stephen Hawking new series on the sci channel aptly named "master of the universe" he says "in empty space this energy takes the form of pairs of subatomic particles that emerge out the void, exist for less than a nano second and then annihilate each other. so the idea is, out of nothing if you like, a pair of particles is created and then exists for a short time and then annihilates and that's happening through out space" how is this possible? and why doesn't this light up the universe with the resulting gamma radiation?

This is the "free energy" nonsense that many crackpot are trying to push. If there is THAT much pair production out of empty space, then our universe would have been opaque, and we would not have to go to such a difficult extent to detect the Casimir forces.

crapola77 said:
because i was under the impression that annihilation created space, i assumed that this explained the expansion of space

Your impression is incorrect.

Zz.
 
  • #19
so are you saying this isn't proven, by what mechanism do they explain how matter and antimatter are being created out of nothing? the validity of this in mind seams easy to test, wheres all the radiation from them?
 
  • #20
crapola77 said:
so are you saying this isn't proven, by what mechanism do they explain how matter and antimatter are being created out of nothing? the validity of this in mind seams easy to test, wheres all the radiation from them?

What isn't "proven"?

Vacuum fluctuation has been shown to be valid, per the Casimir effect. However, the speculation that one can harness significant energy, the way you are equating it with nuclear energy, so far has been shown to be a fallacy.

Zz.
 
  • #21
crapola77 said:
because i was under the impression that annihilation created space, i assumed that this explained the expansion of space

Hi 77,

I have not heard that before, but it is an interesting hypothesis! If particles pop into existence and then annihilate each other, becoming gamma ray radiation, then we have something for nothing. But that is what Allan Guth says we have: "The universe is the ultimate free lunch." The same would be true if the annihilation became more space instead of gamma rays. In one case we have light energy, in the other case we have dark energy.:cool:

-S
 
  • #22
Fermilab usually has over 1012 antiprotons (about 0.2 microCoulombs) circulating in the 6,280-meter-circumference Tevatron (beam tube diameter about 7.5 cm) at about 980 GeV (gamma = 1044, beta = 0.999 999 5). Each annihilating antiproton at rest would release about 3 x 10-10 joules, so 1012 annihilating antiprotons will release about 300 joules of energy (note: TNT has about 4000 joules per gram). Most of the 980-GeV antiproton energy is kinetic, not in its annihilation mass.
Although most of the annihilation energy initially produces pions and other mesons, eventually it all converts to ionization energy (heat) plus (aniti)neutrinos.
See http://www.fnal.gov/pub/about/experiments/index.html#list
 
  • #23
StandardsGuy said:
If particles pop into existence and then annihilate each other, becoming gamma ray radiation...
Wait. When did we say this?

Virtual particles, created from vacuum then recombining again is not the same thing as matter and antimatter. This is mixing two separate phenomena.
 
  • #24
crapola77 said:
and also


but has there ever been any testing done on antimatter in the form of breaking the bonds of the nucleus to release energy as with the atomic bomb. does anti atom have a strong force?
An atom of anti-matter is identical to an atom of matter is every way except the charges on its components. In anti-matter, the anti-proton(s) have a negative charge and the anti-electron(s) have a positive charge.
 
  • #25
When the particles "pop into existence", they still have to obey e=mc^2 - it takes energy to create this mass. When they annihilate each other, they create the gamma radiation, which has exactly the same energy as it took to create the two particles. All that is happening is that for a very brief moment energy is turned into matter and then back into energy.
 
  • #26
Airman said:
When the particles "pop into existence", they still have to obey e=mc^2 - it takes energy to create this mass. When they annihilate each other, they create the gamma radiation, which has exactly the same energy as it took to create the two particles. All that is happening is that for a very brief moment energy is turned into matter and then back into energy.

People have already pointed out that the particles aren't real. Doesn't your assumption predict that empty space consists of photons and antimatter and matter pairs. This is not 'empty' space. This is electrons and positrons.. real electrons and positrons. From what I understand, empty space is called empty for a reason... nothing is there.. including photons.

The particles in vacuum fluctuations are virtual. Do they anhilate to form photons? I don't think so. Maybe virtual photons? I'm not sure. If someone knows that, that would help.
 
  • #27
There are already numerous threads discussing virtual particles here on PF. Please find those and direct your questions about virtual particles there. If not, this thread will seriously go off-topic and will be closed.

Zz.
 
  • #28
ZapperZ said:
In [itex]E = mc^2[/itex], you'll note that that "m" doesn't discriminate between matter and antimatter.
Zz.


yes is the equation technically not [itex]E= +- mc^2[/itex] , the minus sign giving flame for the discovery of antimatter? Basically the equation works both ways.
 
  • #29
Both matter and antimatter have positive mass, as far as we know.
 
  • #30
is it possible to convert pure energy into matter.I mean E=m^c .Does it exist any way to produce "mass"
 
  • #31
cosmos seeker said:
is it possible to convert pure energy into matter.I mean E=m^c .Does it exist any way to produce "mass"

I believe that particle colliders do this. Colliding high energy (IE Fast Moving) particles together can result in many particles created. However it is not in a very controlled way and there really isn't reason to try to use this for anything other than research currently. Keep in mind that a lot of the particles created are unstable and will decay into lighter particles or photons very quickly after formation.
 

1. What is antimatter and how is it different from regular matter?

Antimatter is a type of matter that is made up of particles with the same mass as regular matter, but with opposite charge. For example, the antimatter equivalent of an electron is a positron, which has a positive charge instead of a negative charge. When antimatter comes into contact with regular matter, they annihilate each other, releasing a large amount of energy.

2. How is antimatter created?

Antimatter can be created through natural processes, such as cosmic rays colliding with particles in the atmosphere. However, it can also be created in a laboratory through particle accelerators, where particles are accelerated to high speeds and then collided with a target to produce antimatter particles.

3. What are the potential uses of antimatter?

Antimatter has the potential to be used as a powerful source of energy, as its annihilation with regular matter produces a large amount of energy. It could also be used in medical imaging, as well as in propulsion systems for spacecraft. However, currently the production and storage of antimatter is extremely difficult and expensive, making its practical applications limited.

4. How does antimatter behave at the speed of light?

At the speed of light, antimatter behaves similarly to regular matter. However, due to its opposite charge, it will interact differently with electromagnetic fields. Antimatter particles can also be accelerated to near the speed of light, but they would need to be contained and controlled very precisely to avoid annihilation with regular matter.

5. What mysteries are scientists hoping to uncover by studying antimatter at the speed of light?

Scientists hope to learn more about the fundamental laws of physics and the origins of the universe by studying antimatter at the speed of light. They also hope to better understand the behavior of antimatter and how it interacts with regular matter, as well as potentially finding new applications for this unique form of matter.

Similar threads

Replies
17
Views
9K
  • Other Physics Topics
Replies
1
Views
12K
  • Other Physics Topics
2
Replies
35
Views
3K
  • Special and General Relativity
Replies
1
Views
562
  • Other Physics Topics
Replies
11
Views
2K
  • Other Physics Topics
Replies
3
Views
9K
  • Introductory Physics Homework Help
Replies
7
Views
569
  • Other Physics Topics
Replies
2
Views
1K
  • Other Physics Topics
Replies
2
Views
1K
  • Other Physics Topics
Replies
7
Views
1K
Back
Top