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How can a neutron have a magnetic moment when it has no charge?
as magnetic moments are created by the movement of electric charges Since the neutron is a neutral particle the magnetic moment is an indication of substructure i.e. the neutron is made of other electrically charged particles (quarks).There is a cloud of pi-mesons around the neutrons in result to the exchange of pi-mesons (the exchange particle of the strong force) with the other nucleons (proton and neutrons).the non-zero magnetic moment of the neutron indicates that it is not an elementary particle as it carries no net charge but still interacts with a magnetic field.The magnetic moment is negative which means that the neutron has a tendency to align anti parallel to a magnetic field rather than parallel to the field.
What are electric and magnetic properties of particle?
w What are electric and magnetic properties of particle?
What is the scientific principle behind particle accelators?
particle accelerators work by accelerating a charged particle in a magnetic field where the lines of magnetic flux are such that the particle is accelerated into a circular path. This is so that the force produced by such a motion and magnetic field is perpendicular to both the lines of magnetic flux and the velocity of the particle. The stronger the magnetic field and the faster the particle is moving, the more of a force is required (i.e stronger magnetic field) to keep the particle accelerating. Only a charged particle is affected by a magnetic field so only charged particles can be used inside a particle accelerators (i.e protons and electrons.) neutrons have a charge of zero and are not affected by magnetic fields.
How is a magnetic field produced in a atom?
Simple Answer:An isolated atom has three sources for a magnetic field, the electron motion, the electrons' intrinsic magnetic moment and the nuclear magnetic moment.Explanation:First, the electrons around the atom are in motion and if there is a net circulating flow (i.e. a nonzero angular momentum) then the motion of the electrons is a current that produces a magnetic field in basically the same process that any current produces a magnetic field.Second, the electron itself has a magnetic property as a particle called the magnetic moment. The magnetic moment of the particle effectively makes it a tiny permanent magnet. (Other elementary particles have this property also.) The electrons in an atom can be arranged so that the magnetic fields of the individual electrons' magnetic moments add together or cancel each other out. If they do not totally cancel each other out, the atom as a whole then has the property of a tiny magnet. If arranged in a bulk form, like an iron magnet, these electrons can be the primary source of the permanent magnetic field of a material.Third, the nucleus of an atom is also made up of particles with an intrinsic magnetic moment, just as the electron is. In particular, the protons have a large magnetic contribution. It is not often the case that the nuclei of atoms spontaneously align with the nuclei of other atoms to produce a net permanent magnetization of a material, but it is a technologically important characteristic, e.g. for magnetic resonance imaging (MRI).
Why is magnitude of an electron spin greater than its magnetic moment?
The Spin magnetic moment i approximately the same as the angular magnetic dipole moment. What then do you men by grater magnitude?
Why if a neutron has 0 electirc charge still have a magnetic moment?
as magnetic moments are created by the movement of electric charges Since the neutron is a neutral particle the magnetic moment is an indication of substructure i.e. the neutron is made of other electrically charged particles (quarks).There is a cloud of pi-mesons around the neutrons in result to the exchange of pi-mesons (the exchange particle of the strong force) with the other nucleons (proton and neutrons).the non-zero magnetic moment of the neutron indicates that it is not an elementary particle as it carries no net charge but still interacts with a magnetic field.The magnetic moment is negative which means that the neutron has a tendency to align anti parallel to a magnetic field rather than parallel to the field.
How can a neutron have a magnetic moment when it has no charge?
as magnetic moments are created by the movement of electric charges Since the neutron is a neutral particle the magnetic moment is an indication of substructure i.e. the neutron is made of other electrically charged particles (quarks).There is a cloud of pi-mesons around the neutrons in result to the exchange of pi-mesons (the exchange particle of the strong force) with the other nucleons (proton and neutrons).the non-zero magnetic moment of the neutron indicates that it is not an elementary particle as it carries no net charge but still interacts with a magnetic field.The magnetic moment is negative which means that the neutron has a tendency to align anti parallel to a magnetic field rather than parallel to the field.
What is a elementary particle?
An elementary particle is considered to be a quark. A quark is a building block for subatomic particles.
How magnetic moment of electron is associated with angular momentum of electron?
magnetic moment of a particle is due to its motion around some other orbits or about its own orbit i.e due to its orbital angular momentum or its spin angular momentum.
What are electric and magnetic properties of particle?
w What are electric and magnetic properties of particle?
What does magnetic mean in science terms?
A magnetic field is a field of force produced (1) by moving electric charges, (2) by electric fields that vary in time, and (3) by the intrinsic magnetic field of elementary particles associated with the spin of the particle.
What is the quantum mechanical interpretation of spin?
Not to be confused with spin angular momentum, the spin of a charged particle is associated with a magnetic dipole moment. All fermions (elementary particles) have spin 1/2. And spin comes as n/2 where n is an integer greater than or equal to 0.
What elementary particle is responsible for chemical properties?
This particle is the electron.
Is a proton the smallest particle of a ordinary matter?
No. Electron is roughly 1/2000 of proton in mass. If the question is about spacial size, it is not a meaningful question. The idea that elementary particles are like a physical ping pong ball (but smaller) is incorrect. Elementary particles are not similar to the every day object except in the fact, that they possess energy and momentum, can have electrical charge, magnetic moment and angular momentum.
What is the scientific principle behind particle accelators?
particle accelerators work by accelerating a charged particle in a magnetic field where the lines of magnetic flux are such that the particle is accelerated into a circular path. This is so that the force produced by such a motion and magnetic field is perpendicular to both the lines of magnetic flux and the velocity of the particle. The stronger the magnetic field and the faster the particle is moving, the more of a force is required (i.e stronger magnetic field) to keep the particle accelerating. Only a charged particle is affected by a magnetic field so only charged particles can be used inside a particle accelerators (i.e protons and electrons.) neutrons have a charge of zero and are not affected by magnetic fields.
What is a uncharged elementary particle?
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What is an uncharged elementary particle?
A neutron.
