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.does neutrons have electromagnetic force?
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?
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?
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.
A neutron is a subatomic particle that has no electric charge and a mass slightly larger than that of a proton. It is found in the nucleus of an atom and plays a crucial role in determining the stability and properties of an atom.
The electromagnetic force is responsible for holding the nucleus of an atom together, and thus it indirectly affects the neutrons. Neutrons have no electric charge, so they do not directly interact with the electromagnetic force. However, they are affected by the strong nuclear force, which is mediated by particles that are charged, such as protons.
Yes, neutrons can be affected by magnetic fields. Although they have no electric charge, they have a magnetic moment due to their spin. This means that in the presence of a magnetic field, neutrons can experience a torque and may align themselves with the field.
Neutrons have a wide range of uses in science and technology. They are used in nuclear reactors to produce energy, in medical imaging techniques such as neutron radiography, and in materials science to study the structure and properties of materials. They are also used in fundamental research to probe the properties of matter at the atomic level.
The strong nuclear force is responsible for holding the nucleus of an atom together. Neutrons, along with protons, are affected by this force, which is mediated by particles called gluons. The number of neutrons in an atom can affect the strength of the strong nuclear force, as it determines the overall stability of the nucleus.