Pages

Saturday, June 20, 2020

PROPERTIES OF MAGNETS - Magnetism is a physical property produced by the motion of electric charge, resulting in attractive and repulsive forces between objects. All magnets have two ends where its magnetic effects are strongest. These regions are called the poles of the magnets. When two magnets are brought near each other they exert forces on each other. Magnetic forces behave like electric forces involving attraction and repulsion. Magnetic poles always appear in pairs. If a magnet is cut in half each piece will still have a north and south pole. The term 'magnetic field' is used for two distinct but closely related fields denoted by the symbols B and H. In the International System of Units, H is measured in units of amperes per meter and B is measured in teslas. All atoms are made up of a nucleus made of protons and neutrons which are held together tightly by a strong force and electrons revolving around the nucleus bound by an electric force. The electrons rotate or spin around its own axis. The spinning of electrons produces a magnetic dipole. This is one of fundamental properties of an electron that it behaves like a tiny magnet. If the majority of electrons in the atom spins in the same direction, a strong magnetic field is produced. The direction of the electrons spin determines the direction of magnetic field. If the same number of electrons in the atom spins in opposite directions, the electron spins will cancel out. Thus, the magnetism will also be cancelled. Ferromagnetism is the basic mechanism by which certain materials (such as iron) form permanent magnets, or are attracted to magnets.

Properties of Magnets · Magnetism
...............................................................................................................................................
How to Demagnetize a Magnet
Properties of Magnets
EDinformatics.com




What is Magnetism?
Magnetism is a physical property produced by the motion of electric charge, resulting in attractive and repulsive forces between objects.
All magnets have two ends where its magnetic effects are strongest. These regions are called the poles of the magnets.
When two magnets are brought near each other they exert forces on each other.
Magnetic forces behave like electric forces involving attraction and repulsion.
Magnetic poles always appear in pairs. If a magnet is cut in half each piece will still have a north and south pole.
What is the unit of magnetic field?
The term 'magnetic field' is used for two distinct but closely related fields denoted by the symbols B and H.
In the International System of Units, H is measured in units of amperes per meter and B is measured in teslas or newtons per meter per ampere.
Where does magnetism come from?
All atoms are made up of a nucleus made of protons and neutrons which are held together tightly by a strong force and electrons which are thought of as revolving around the nucleus bound by an electric force.
The electrons also rotates or spins around its own axis.
The spinning of electron produce a magnetic dipole. This is one of fundamental properties of an electron that it has a magnetic dipole moment, i.e., it behaves like a tiny magnet.
See image below.
a spinning electron produces a magnetic field
If the majority of electrons in the atom spins in the same direction, a strong magnetic field is produced.
The direction of the electrons spin determines the direction of magnetic field.
If the same number of electrons in the atom spins in opposite directions, the electron spins will cancel out. Thus, the magnetism will also be cancelled.
What is Ferromagnetism?
Ferromagnetism is the basic mechanism by which certain materials (such as iron) form permanent magnets, or are attracted to magnets.
In physics, several different types of magnetism are distinguished.
Ferromagnetism is the strongest type: it is the only one that typically creates forces strong enough to be felt, and is responsible for the common phenomena of magnetism in magnets encountered in everyday life.
Ferromagnetic materials such as soft iron are easily magnetized if you bring an iron nail close to the magnet and stroke it in the same direction then they can retain their magnetism even after removed from the magnet.
What is a Magnetic field?
magnetic field of a magnetThe region that magnetic forces act is called a magnetic field.
A magnetic field is represented by lines of force extending from one pole of a magnet to the other pole.
In everyday life, magnetic fields are most often encountered as a force created by permanent magnets, which pull on ferromagnetic materials such as iron, cobalt, or nickel, and attract or repel other magnets.
lines of magnetic fields in attractive and repulsive magnetsAbove image shows the lines of force between two magnets.
Right image shows force of repulsion between two north poles.
Left image shows lines of attractive forces between the north and south poles of magnets.
What is a magnetic domain?
You can think of a magnetic domain as a tiny magnet with a north pole and south pole.
The properties of these magnets as stated above is due to the action of the spinning electrons in atoms.
Groups of atoms join in such a way that their magnetic fields are all arranged in the same direction.
The region in which magnetic fields of individual atoms are lined up in the same direction is called a magnetic domain. 
All materials are made up of many magnetic domains.
magnetic material of unmagnetized materialIn unmagnetized materials the domains are randomly aligned in different directions and cancel each other out.
Material from Unmagnetized Material
In a magnet all the domains are oriented in the same direction.
In the case of a nail, the domains can be aligned in the same direction causing the nail to become magnetic.
When a ferromagnetic material is placed in a strong magnetic field it causes all the domains to line up and produce a strong magnetic field.
magnetic material of magnetized materialThis explains how a magnet can pick up a group of iron paper clips. The magnet aligns all the domains in the paper clip creating tiny magnets within the paper clip. When the magnet is removed the domains return to their random state.
Material from Magnetized Material
Even a strong magnet can be demagnetized if the domains are disrupted by force or heat.

What Is Bar Magnet? - Properties, Uses, Pole Strength, Types

No comments:

Post a Comment