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Magnetic momentum is not a standard term in physics. However, it may refer to the magnetic moment of a system or particle, which is a measure of its ability to interact with magnetic fields. It is a vector quantity that describes the strength and orientation of the magnetic properties of an object.

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What is the relationship between magnetic moment and angular momentum in quantum mechanics?

In quantum mechanics, the relationship between magnetic moment and angular momentum is described by the concept of spin. Spin is a fundamental property of particles that is related to their angular momentum and magnetic moment. The magnetic moment of a particle is directly proportional to its spin and angular momentum, and is a key factor in determining how particles interact with magnetic fields.


What is the relationship between an electron's spin angular momentum and its spin magnetic dipole moment?

The relationship between an electron's spin angular momentum and its spin magnetic dipole moment is that the spin magnetic dipole moment is directly proportional to the spin angular momentum. This means that as the spin angular momentum of an electron increases, so does its spin magnetic dipole moment.


What is the difference between magnetic moment and angular momentum?

Magnetic moment refers to the property of a magnet or a current-carrying loop to produce a magnetic field, while angular momentum is a measure of the rotational motion of an object. In terms of physical quantity, magnetic moment is a vector quantity, while angular momentum is a vector quantity as well.


When a proton move freely in a magnetic field what will be effect on momentum and speed?

When a proton moves freely in a magnetic field, its momentum will not change but its direction will be affected. The proton will experience a force perpendicular to its velocity, causing it to move in a circular path, hence its speed will remain constant.


What force makes electrons align in a magnet?

Electrons align in a magnet due to their inherent magnetic moment, which arises from their spinning motion and orbital angular momentum. In a magnet, the magnetic moments of individual electrons align in the same direction, creating a magnetic field.

Related Questions

What is known as magnetic momentum?

magnetic momentum is the product of charge and specific capacity


What is the relationship between magnetic moment and angular momentum in quantum mechanics?

In quantum mechanics, the relationship between magnetic moment and angular momentum is described by the concept of spin. Spin is a fundamental property of particles that is related to their angular momentum and magnetic moment. The magnetic moment of a particle is directly proportional to its spin and angular momentum, and is a key factor in determining how particles interact with magnetic fields.


What is the relationship between an electron's spin angular momentum and its spin magnetic dipole moment?

The relationship between an electron's spin angular momentum and its spin magnetic dipole moment is that the spin magnetic dipole moment is directly proportional to the spin angular momentum. This means that as the spin angular momentum of an electron increases, so does its spin magnetic dipole moment.


What is the difference between magnetic moment and angular momentum?

Magnetic moment refers to the property of a magnet or a current-carrying loop to produce a magnetic field, while angular momentum is a measure of the rotational motion of an object. In terms of physical quantity, magnetic moment is a vector quantity, while angular momentum is a vector quantity as well.


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 has the author Nelson J Groom written?

Nelson J Groom has written: 'Evaluation of a laboratory test model annular momentum control device' -- subject(s): Control systems, Magnetic memory (Computers), Angular momentum, Magnetic suspension, Space vehicles 'Analysis and simulation of a magnetic bearing suspension system for a laboratory model annular momentum control device' -- subject(s): Control systems, Space vehicles, Momentum (Mechanics), Magnetic suspension


When a proton move freely in a magnetic field what will be effect on momentum and speed?

When a proton moves freely in a magnetic field, its momentum will not change but its direction will be affected. The proton will experience a force perpendicular to its velocity, causing it to move in a circular path, hence its speed will remain constant.


What has the author James Downer written?

James Downer has written: 'Modelling and control of an annular momentum control device' -- subject(s): Magnetic bearings, Momentum storage devices


This Quantum Number is used to predict magnetic tendencies of an atom?

The magnetic quantum number is used to predict the magnetic tendencies of an atom. It specifies the orientation of an electron's orbital angular momentum and contributes to the overall magnetic behavior of an atom.


Commonly used vectors incude?

Position, velocity, acceleration, force, momentum, electric field, magnetic field.


What meant by magnetic focusing and how does a momentum selector work?

1800 magnetic deflection is mainly used in mass spectrograph for separating the different types of ions or for focusing the charged particles of same momentum on the screen nearly at the same point when they enter through the slit at different angles. Hence it is also known as 1800 magnetic focusing or momentum selector. When a beam of charged particles enters through a slit in a uniform magnetic field B in direction perpendicular to the direction of field with a velocity v the particles move in a circular path the radius of which is r=mv/qB. Thus a beam of particles of same momentum mv can be obtained after 1800 deflection .


What causes inclination?

Inclination can be caused by a variety of factors including gravitational forces, magnetic fields, and angular momentum. Gravitational forces between celestial bodies can influence their orbits, resulting in an inclination of their orbital plane. Magnetic fields can also affect the inclination of objects, such as charged particles in a magnetic field. Lastly, angular momentum from the initial conditions of a system can contribute to the inclination of orbits.