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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.
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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.
Why is magnitude of an electron spin greater than its magnetic moment?
The magnitude of the electron's spin is greater than its magnetic moment because the spin of an electron contributes more to its intrinsic angular momentum than its magnetic moment does. The spin of an electron arises from its intrinsic properties and is a fundamental characteristic of the particle, whereas the magnetic moment is a consequence of the electron's charge and its motion.
How atoms give rise to magnetic properties in certain material?
Magnetic fields are cause by the movement of charge , normally electrons each atoms has a magnetic moment
Why is the magnetic moment of a nucleus smaller than the magnetic moment of an electron?
The magnetic moment of a nucleus is generally smaller than that of an electron because the nucleus is composed of protons and neutrons, which have smaller individual magnetic moments that partially cancel each other out due to their arrangement within the nucleus. Electrons, on the other hand, are elementary particles with a specific magnetic moment that is not cancelled out by other particles.
Are electrons and positrons the same?
No. A positron is the antiparticle of an electron, meaning it has the same mass but an opposite charge and magnetic moment.
Is magnetic moment scalar or vector?
Magnetic moment is a vecotr quantity
Two identical magnets of magnetic moment are joined What will be the resultant magnetic moment?
The resultant magnetic moment is dependent on the orientation in which the identical magnets were joined. If they are joined in opposite direction, the net magnetic moment will go to zero.
Difference between x ray diffraction and neutron diffraction?
X-ray diffraction uses X-rays to study the atomic structure of materials, while neutron diffraction uses neutrons. Neutron diffraction is particularly useful for studying light elements like hydrogen because neutrons interact strongly with them, while X-ray diffraction is better for heavy elements. Neutron diffraction also provides information about magnetic structures due to the neutron's magnetic moment.
What are electric and magnetic properties of particle?
Particles can have electric charge, which determines how they interact with electric fields. They can also have magnetic properties, such as magnetic moment, which describes how they respond to magnetic fields. These properties are important for understanding how particles behave in different environments and in the context of particle physics.
What is difference between between electric dipole moment and magnetic dipole moment?
An electric dipole moment is a measure of the separation of positive and negative charges in a system, creating an electric field. A magnetic dipole moment, on the other hand, is a measure of the strength and orientation of a magnetic field created by a current loop or a moving charge. In essence, electric dipole moments deal with electric fields generated by charges, while magnetic dipole moments pertain to magnetic fields generated by moving charges.
How do you find magnetic moment of a chemical compound?
To find the magnetic moment of a chemical compound, you need to calculate the net magnetic moment of all the individual magnetic species in the compound. This can be done by considering the magnetic properties of each element and the overall molecular structure. Experimental techniques such as magnetic susceptibility measurements can also be used to determine the magnetic moment of a compound.
What are Magnetic Properties of Metals?
Iron (Fe) Cobalt (Co) and Nickel (Ni) iron, steel, nickel, and cobalt all have magnetic properties. Lodestone is also magnetic and was used to make early compasses a long time ago because it has magnetic metal elements in it.
