Yes! They are the ones doing the push(repel) and pull(attract).
and even a single pole has no existence.this dipoles are resposible for dipole moment in a magnet.
Aligned dipoles refer to a configuration in which electric or magnetic dipoles are arranged in a specific orientation. This alignment can occur naturally in certain materials or be induced through external fields. The resulting collective orientation of the dipoles can lead to unique electromagnetic properties.
Magnetism does not have a boiling point as it is a fundamental property of certain materials related to the alignment of magnetic dipoles. Magnetic properties can change with temperature, but there is no specific temperature at which magnetism "boils."
The attractive forces between chains are due to instantaneous induced dipoles, London dispersion forces,( not induced diipoles due to permananent dipoles). Polyethylene chains are long and the number of electrons is large- the intermolecular attraction will be significant.
To understand this we need to understand the magnetic properties of material. There are 3:-Ferromagnetic.Paramagnetic.Diamagnetic.Ferromagnetic substances which are easily attracted to magnets. Paramagnetic substances are those which are weakly attracted to magnets. Diamagnetic substances are not attracted to magnets. So Palladium falls in the third category while iron is ferromagnetic.
Refrigerator magnets, car magnets, neodymium magnets are names of small magnets.
Iron, cobalt, and nickel are the three main types of metals that are attracted to magnets. This property is due to the alignment of their atomic dipoles in the presence of a magnetic field, allowing them to be attracted to magnets.
The two main types of dipoles are electric dipoles, which consist of two opposite charges separated by a distance, and magnetic dipoles, which involve a pair of magnetic poles with opposite polarities. Electric dipoles are commonly found in molecules, while magnetic dipoles are seen in magnets and certain atomic particles.
Magnets and static electricity are two separate phenomena. Magnets generate a magnetic field due to the alignment of their atoms' magnetic dipoles, while static electricity is created by the buildup of electric charges on the surface of an object. They do not directly interact with each other.
The force between magnets and iron is due to magnetism. Iron is a ferromagnetic material, meaning it can be easily magnetized and attracts other magnets due to its alignment of atomic dipoles. This attraction or repulsion between iron and magnets is a result of the magnetic field surrounding the objects.
The Curie temperature is the temperature at which magnetic materials lose their magnetic properties. If a magnet is exposed to temperatures beyond its Curie temperature, it will lose its magnetism. However, at lower temperatures, the strength of a magnet tends to increase due to a decrease in thermal motion among its magnetic dipoles.
Magnets work in the field of physics through the interaction of magnetic fields. These fields are created by the alignment of magnetic dipoles within the material. When two magnets are brought close together, their magnetic fields interact, either attracting or repelling each other based on the orientation of their poles. This phenomenon is governed by the laws of electromagnetism and plays a crucial role in various technological applications.
Aligned dipoles refer to a configuration in which electric or magnetic dipoles are arranged in a specific orientation. This alignment can occur naturally in certain materials or be induced through external fields. The resulting collective orientation of the dipoles can lead to unique electromagnetic properties.
Yes. It is totally true. Magnets are magic. no there not u retad seriously there fucing g@y. Mate all this guys trying to is have a joke but i guess you can't comprehend that in your tiny little mind. Your such a troll
Magnetism does not have a boiling point as it is a fundamental property of certain materials related to the alignment of magnetic dipoles. Magnetic properties can change with temperature, but there is no specific temperature at which magnetism "boils."
The attractive forces between chains are due to instantaneous induced dipoles, London dispersion forces,( not induced diipoles due to permananent dipoles). Polyethylene chains are long and the number of electrons is large- the intermolecular attraction will be significant.
Some common magnetic materials include iron, nickel, cobalt, and alloys like alnico and permalloy. These materials possess magnetic properties due to the alignment of their atomic dipoles, which allows them to create magnetic fields and attract or repel other magnets.
To understand this we need to understand the magnetic properties of material. There are 3:-Ferromagnetic.Paramagnetic.Diamagnetic.Ferromagnetic substances which are easily attracted to magnets. Paramagnetic substances are those which are weakly attracted to magnets. Diamagnetic substances are not attracted to magnets. So Palladium falls in the third category while iron is ferromagnetic.