How does one fermion change the energy of another fermion

In summary, the way one fermion changes the energy of another is through the emission and absorption of bosons. This is a mathematical concept and not a physical process. The energy change is actually a change in momentum and can be caused by acceleration via electric field or the absorption of a real photon. The Pauli Exclusion Principle also plays a role in this process.
  • #1
susskind99
24
0
My understanding of how one fermion changes the energy of another is something like: fermion x approaches fermion y and x emits bosons which are absorbed by y. But why does one billiard ball transfer a lot of its energy to another billiard ball on contact? Say billiard ball x approaches billiard ball y, x hits y, x stops and y moves. I realize the Pauli Exclusion Principle forbids x from occupying the same place as y. But why does y absorb more bosons from x than vice versa? Why would the fact that x is moving y to absorb more bosons from x than x absorbs from y?
 
Physics news on Phys.org
  • #2
hi susskind99! :smile:
susskind99 said:
My understanding of how one fermion changes the energy of another is something like: fermion x approaches fermion y and x emits bosons which are absorbed by y.

sorry, but that's just a myth told by mathematicians to frighten physicists! o:)

those boson lines you see in feynman diagrams "carrying the force" are just a mathematical trick that help in the calculations

after all, when two electrons repel each other, do you think that can be explained by by emitting (presumably negative-mass) bosons? :wink:

(and btw, it's really the momentum that's affected, rather than the energy)
 
  • #3
tiny-tim said:
hi susskind99! :smile:


sorry, but that's just a myth told by mathematicians to frighten physicists! o:)

those boson lines you see in feynman diagrams "carrying the force" are just a mathematical trick that help in the calculations

after all, when two electrons repel each other, do you think that can be explained by by emitting (presumably negative-mass) bosons? :wink:

(and btw, it's really the momentum that's affected, rather than the energy)


Then how does a fermion's energy change?
 
  • #4
susskind99 said:
Then how does a fermion's energy change?

Like kinetic energy? You can accelerate a charged fermion via electric field.

Or you mean increase of electron energy in atomic orbital? Electron absorbs a real photon.
 

1. How are fermions related to energy changes?

Fermions are particles that make up matter in the universe. Energy changes occur when fermions interact with each other, and these interactions can result in changes in the energy state of the particles involved.

2. What is the mechanism behind fermion energy changes?

The mechanism behind fermion energy changes is known as the Pauli exclusion principle. This principle states that no two fermions can occupy the same quantum state simultaneously. Therefore, when fermions interact, they change energy levels in order to avoid occupying the same state.

3. Can fermion energy changes be observed?

Yes, fermion energy changes can be observed through various experimental techniques such as spectroscopy or particle collisions. These observations provide evidence for the existence of fermions and their energy-changing interactions.

4. How do fermions affect the energy levels of other particles?

Fermions can affect the energy levels of other particles through the exchange of energy and momentum. When two fermions interact, they can transfer energy to each other, resulting in changes in their respective energy levels.

5. Are fermion energy changes significant in everyday life?

Yes, fermion energy changes are significant in everyday life. They play a crucial role in the functioning of atoms, molecules, and other particles that make up our physical world. Understanding fermion energy changes is essential for many technological advancements in fields such as medicine, energy production, and materials science.

Similar threads

A Spin change of Fermions and quantum energy spectrum
    • Quantum Physics
Replies
1
Views
878
I Why does topology matter in determining fermions and bosons?
    • Quantum Physics
Replies
4
Views
1K
Graphically rep. 1+1D Weyl fermions, does this work?
    • Quantum Physics
Replies
1
Views
780
I Question about the Photoelectric Effect and the Work Function of a Metal
    • Quantum Physics
Replies
5
Views
640
I How does one compute the Fourier-Transform of the Dirac-Hamiltonian?
    • Quantum Physics
Replies
6
Views
1K
B Question about energy needed by electron to change energy levels
    • Quantum Physics
Replies
6
Views
975
I Pauli exclusion principle and Hermitian operators
    • Quantum Physics
Replies
15
Views
2K
Huh? Condensates can exchange particles without effect?
    • Quantum Physics
Replies
2
Views
970
I Does the +/- 1 term in bosonic and fermionic statistics matter
    • Quantum Physics
Replies
2
Views
918
Why is the Energy Released in Nuclear Decay Equal to the Change in Binding Energies?
    • Introductory Physics Homework Help
Replies
13
Views
349

Hot Threads

Recent Insights

Back
Top