Matter vs Antimatter: Understanding the Disproportion

In summary, the conversation discusses the concept of virtual particles and why they do not cause everything to constantly pop in and out of existence. The speaker compares this idea to a shell game, where a pea is under one of three cups, and explains that the vacuum is a steady state with a certain probability of virtual particles being present. The conversation also touches on the disproportionate amount of matter and antimatter in the universe, which is currently a mystery. It is suggested that the spontaneous emergence of particle-antiparticle pairs may be possible, but the likelihood of this happening for all particles in our bodies is extremely small. This could potentially be related to the concept of entropy.
  • #1
GuRuPhysicsGuy
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If virtual particles are popping into and out of existence all the time, why aren'twe? Why aren't the particles that make up everything popping in and out of existence and why is the amount of matter in the universe disproportionate to the amount of antimatter?
 
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  • #2
If virtual particles are popping into and out of existence all the time, why aren't we?
Short answer: they aren't.

This is another one of those fairy tales that the popular science media likes to repeat, because, I guess, they find it too difficult to explain a little bit about quantum mechanics to the public, or maybe because they don't understand it themselves.

Let's play the shell game. A pea is hidden under one of three cups. Now... would you say the pea is rapidly shifting back and forth between the cups? Of course not, nothing at all is changing. It's just that there's a certain probability that the pea is under each one.

It's the same with the vacuum. It's a steady state - nothing at all is changing. The vacuum does not "boil" with virtual particles. It's just that there's a certain probability that a number of virtual particles are present.

Furthermore, energy is conserved, even in quantum mechanics, and for this reason too you can't have virtual particles appearing out of nowhere and disappearing again, even if they do it very quickly!
why is the amount of matter in the universe disproportionate to the amount of antimatter?
That's a different issue. No one knows the answer to that one.
 
  • #3
Thanks, that's really helped. I've only recently started to become interested in quantum physics, and as of my last question, I see now it was a very question indeed.
 
  • #4
I think there is a probability of spontaneous emergence of particle-antiparticle pair , but simultaneous occurrence for ALL particles of out body is overwhelmingly small. It's looks like a question of entropy.
 

1. What is the difference between matter and antimatter?

Matter and antimatter are essentially mirror images of each other. Matter is made up of particles with positive charge, such as protons, neutrons, and electrons. Antimatter is made up of particles with negative charge, such as antiprotons, antineutrons, and positrons. They have the same mass and spin, but opposite charge.

2. Why does antimatter have a negative charge?

Antimatter has a negative charge because it is composed of antiparticles, which have the same mass as their corresponding particles but opposite charge. This is due to the fundamental laws of physics, such as the conservation of electric charge.

3. How is antimatter created?

Antimatter can be created through a process called pair production, in which a high-energy photon interacts with a nucleus and produces an electron and its corresponding antiparticle, a positron. It can also be created in particle accelerators, where particles are smashed together at high speeds.

4. What happens when matter and antimatter collide?

When matter and antimatter collide, they annihilate each other and release a tremendous amount of energy in the form of gamma rays. This process is governed by the equation E=mc^2, where E is energy, m is mass, and c is the speed of light. This is why antimatter is often used in science fiction as a powerful energy source.

5. Why is there more matter than antimatter in the universe?

This is a major question in physics and is still not fully understood. According to the Big Bang theory, equal amounts of matter and antimatter were created in the early universe. However, as the universe expanded and cooled, the particles and antiparticles began to annihilate each other, leaving behind a small amount of matter. This asymmetry is known as the baryon asymmetry and is an active area of research in particle physics.

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