Neutrons & Electromagnetic Force: Q&A

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Discussion Overview

The discussion centers around the nature of neutrons and their relationship with electromagnetic force, particularly in the context of particle detection and interactions. Participants explore the implications of neutrons being neutral and composed of charged quarks, as well as the mechanisms through which neutrons can interact with other particles.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Mathematical reasoning

Main Points Raised

  • Some participants question whether neutrons possess electromagnetic force due to their neutral charge, while acknowledging that they are composed of charged quarks.
  • It is noted that neutrons have an electromagnetic 'form factor' and a magnetic dipole moment, which may play a role in interactions.
  • Participants discuss how neutrons can be detected indirectly through nuclear interactions that produce charged particles, rather than through direct electromagnetic interactions.
  • One participant raises a question about the nature of forces within neutrons and protons, suggesting that strong forces may be influenced by the electromagnetic forces of quarks at short distances.
  • There is a discussion about the differences between up and down quarks, including their charges and masses, and how these contribute to the overall charge of protons and neutrons.
  • A hypothetical scenario is proposed regarding the effects if all quarks in a neutron were neutral, questioning whether the neutron would still have an electromagnetic 'form factor' or the ability to ionize other particles.

Areas of Agreement / Disagreement

Participants express differing views on the role of electromagnetic force in neutrons and whether neutrons can be detected through electromagnetic interactions. The discussion remains unresolved, with multiple competing perspectives on the nature of forces at play.

Contextual Notes

Some claims involve complex interactions between quarks and the forces that govern them, which may depend on specific definitions and assumptions about particle physics. The discussion does not resolve the implications of these interactions.

Deepak247
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does neutrons have electromagnetic force?

I mean it is the electromagnetic force which allows particles to feel each other in the first place during detection process, but neutron is neutral with no charge so does it possesses it?
 
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does neutrons have electromagnetic force?
Although a neutron has zero net charge, it is composed of quarks which are charged particles. As a result the neutron has an electromagnetic 'form factor', i.e. charge density as a function of radius. Also a magnetic dipole moment aligned with its spin.
 
Deepak247 said:
does neutrons have electromagnetic force?

I mean it is the electromagnetic force which allows particles to feel each other in the first place during detection process, but neutron is neutral with no charge so does it possesses it?

If you're talking about *detection* of neutrons, well, you're right: particle detectors want to see charges and neutrons don't provide them *directly*. But there are ways to provide these charged particles *indirectly*:

* for fast neutrons, elastic collision will set nucleae of the material composing the detector in motion. The neutron will literally knock out a nucleus from its place, and the electron cloud will not follow. The elastic interaction itself is a result of the *nuclear* interaction between the neutron and the nucleus, and not the electromagnetic interaction. The nucleus set in motion will be charged and one will be able to detect it through ionisation and/or excitation.

* for thermal neutrons, one needs a nuclear interaction. For instance, a fission reaction induced on U-235, but there are others. These nuclear interctions will provide fast charged particles (in our example, the fission products), which again, will excite and ionise, and which we can detect.
 
sanoy87 said:
neutrons are made of quarks ,then homework neutron disintegrates into proton ,eletron,neutrino during weak interaction(does some thing in w- boson & in neutron combines to form electron).quarks are of size of electron ;neutrons are about 1837times size of electron,3quarks in an neutron&proton,is there any thing else in neutrons, when we calculate electostatic force within neutron there is a net force but no net charge,but in case of proton there's no net force but net charge exists,are strong forces caused by electromagnetic forces of quarks acting acting at very short distance+ interaction of other matter-energy present in nucleus?

In a neutron, one of the down quarks decays via weak force into an up quark. This turns the neutron into a proton and releases the particles. Note that the particles didn't exist before this decay. They weren't already in the neutron. It was the mass difference between the down quark and the up quark that is converted to different particles.

In both protons and neutrons there are electromagnetic forces from each quark. In the proton they happen to add up to 1 while in the neutron they add up to 0. I don't know what you mean by a "net force" within the neutron but not the proton. The strong force holds the quarks together in both particles, not the electromagnetic force.
 
wts difference between up quark& down quark is it amount of energy ? in above topic i thk sanoy87 is talking about coloumb force between 2/3,-1/3 charges of quarks,when r->0=> force ->infinty, may be that's what he is talking about
 
Last edited:
An up quark is slightly less massive than a down quark and has a charge of +2/3 while a down quark has a charge of - 1/3.
 
Drakkith said:
In both protons and neutrons there are electromagnetic forces from each quark. In the proton they happen to add up to 1 while in the neutron they add up to 0.

I just need to clear up one more concept here so please help,

What if those three quarks which add up to 0 in the neutron were hypothetically neutral, i.e. everyone had 0 charge

would the neutron still had the electromagnetic 'form factor' or electromagnetic force to excite or ionize other particles in a reaction?
 
I don't believe it would.
 

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