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Permanent magnets have a magnetic field around them. This field is an "area" of force, and the force is derived directly from the uniform motion of a large number of electrons in the ferromagnetic material. Moving electrons generate a tiny magnetic field around their path of travel, and this is the basis of the magnetic force. The "blocks" of atoms that have uniformly moving electrons are called magnetic domains. The aligned domains allow an "over all" magnetic field to be detected and even used by an investigator. The field will interact with ferromagnetic material to attract it, or will, when moved "past" any conductor, induce a voltage in that conductor.
A pair of magnets will attract or repel, depending on how they are held or placed. The magnetic field of each one will interact with the field of the other, and the lines of force will push or pull, as suggested.
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What are the 3 properties of mangets?
Attraction: Magnets attract certain materials like iron and steel. Repulsion: Like poles of magnets repel each other. Magnetic field: Magnets create a magnetic field around them that influences other nearby objects.
What type of energy repels magnets?
To create a permanent magnet energy must be supplied to suitable materiel by immersing it in a magnetic field normally supplied by an electromagnet
What is the scientific word for the pushing force of magnets?
The scientific term for the pushing force of magnets is "magnetic repulsion." This phenomenon occurs when like poles of two magnets (either north-north or south-south) are brought close together, causing them to push away from each other. Magnetic repulsion is a fundamental aspect of magnetism, along with magnetic attraction, which occurs between opposite poles.
How are magnets like relationships?
Magnets and relationships both involve attraction and repulsion. Just as magnets can pull together or push apart depending on their alignment, relationships can experience moments of closeness and distance. Additionally, both magnets and relationships require effort and attention to maintain their strength and connection.
State the law of magnetic fraction and repulsion?
The law of magnetic attraction and repulsion states that like magnetic poles (north-north or south-south) repel each other, and unlike magnetic poles (north-south) attract each other. This principle explains how magnets interact and is fundamental in understanding magnetic behavior.
What is the term for the attraction or repulsion between the poles of the magnets?
magnetic force
What is the term for the attraction and repulsion between the poles of magnets?
The term for the attraction and repulsion between the poles of magnets is magnetic force. This force is responsible for the interaction between magnets as opposite poles attract each other and like poles repel each other.
Is a property of matter in which there is a force of attraction or repulsion between unlike or like poles?
The property you are referring to is magnetism, where there is a force of attraction or repulsion between unlike or like poles of magnets. Magnetism is caused by the alignment of the magnetic domains in the material.
What are the characteristic of magnetic attraction and repulsion?
Magnetic attraction is the force that pulls two magnets together, while magnetic repulsion is the force that pushes two magnets apart. These phenomena arise from the alignment of magnetic domains within the magnets, which either reinforce each other (attraction) or oppose each other (repulsion). Magnetic attraction and repulsion follow the laws of magnetism and are essential for the functioning of many devices, such as electric motors and generators.
What is the term for the attraction or repulsion between the poles?
The term is called "magnetic attraction" or "magnetic repulsion." It refers to the force between the poles of magnets where like poles repel each other and opposite poles attract each other.
What are the 3 properties of mangets?
Attraction: Magnets attract certain materials like iron and steel. Repulsion: Like poles of magnets repel each other. Magnetic field: Magnets create a magnetic field around them that influences other nearby objects.
How do bar magnets interact with each other and what factors influence their magnetic attraction or repulsion?
Bar magnets interact with each other through magnetic forces. Like poles (north-north or south-south) repel each other, while opposite poles (north-south) attract. Factors influencing their magnetic attraction or repulsion include the strength of the magnets, the distance between them, and the orientation of their poles.
How do magnets that stick to each other demonstrate the principles of attraction and repulsion in physics?
When magnets stick to each other, it demonstrates the principles of attraction and repulsion in physics. Magnets have opposite poles (north and south) that attract each other, causing them to stick together. However, like poles (north and north, or south and south) repel each other, causing the magnets to push away from each other. This behavior is due to the magnetic fields generated by the magnets interacting with each other.
What type of energy repels magnets?
To create a permanent magnet energy must be supplied to suitable materiel by immersing it in a magnetic field normally supplied by an electromagnet
What are the two forces for magnets?
The two forces for magnets are attraction and repulsion. Like poles (north-north or south-south) repel each other, while opposite poles (north-south) attract each other.
Attraction or repulsion of magnets depends on their magnetic?
The attraction or repulsion of magnets depends on their magnetic polarity. Like poles (north-north or south-south) repel each other, while opposite poles (north-south) attract. This behavior is due to the interaction of magnetic fields.
What is the scientific word for the pushing force of magnets?
The scientific term for the pushing force of magnets is "magnetic repulsion." This phenomenon occurs when like poles of two magnets (either north-north or south-south) are brought close together, causing them to push away from each other. Magnetic repulsion is a fundamental aspect of magnetism, along with magnetic attraction, which occurs between opposite poles.
