The field lines do not cross
Magnets have north and south poles, whereas charges do not have distinct poles. Additionally, magnets can attract or repel each other based on their alignment, while charges can only attract each other. Finally, magnets can retain their magnetism even when not in contact with another magnet, whereas charges require contact to interact.
Magnets create a magnetic field without the need for electricity. However, magnets and electricity are related as moving electrical charges (current) can produce a magnetic field, and vice versa (electromagnetism).
in magnets, south and north...
Both magnets and electromagnets have a magnetic field that can attract or repel objects. They can both be used to pick up and manipulate metal objects. Both magnets and electromagnets rely on the alignment of the magnetic domains in their material to generate a magnetic force.
Bar magnets display a characteristic type of charge called magnetic charge. These charges create a magnetic field around the magnet and can interact with other magnets or magnetic materials in their vicinity.
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both magents and electricity have positive and negiteve charges
Magnets have north and south poles, whereas charges do not have distinct poles. Additionally, magnets can attract or repel each other based on their alignment, while charges can only attract each other. Finally, magnets can retain their magnetism even when not in contact with another magnet, whereas charges require contact to interact.
produce a force that pushes and pulls
The force between electric charges and magnets is known as electromagnetic force. It can be both attractive and repulsive, depending on the charges and poles involved. Opposite charges and poles attract each other, while like charges and poles repel each other.
magnets have negative and positive charges
Magnets have both a north and south pole, they attract materials such as iron and steel, and can create a magnetic field around them.
Electric charges and magnets can interact through electromagnetic forces. Moving electric charges create magnetic fields, while magnets can exert forces on moving electric charges. This interaction is fundamental to how electromagnets work and plays a key role in many technological applications such as electric motors and generators.
Moving electric charges produce a magnetic field, which can interact with other magnetic fields, including those produced by permanent magnets. This interaction can result in forces being exerted on the moving charges and/or the magnets, leading to phenomena such as magnetism, electromagnetic induction, and electric motors.
No, batteries don't charge faster when around magnets. It charges at the same speed.
Both artificial and natural magnets.
Similar: You have a force from one polarity to another. The electric field is a natural force for charged particles. The magnetic field is the force from magnetic material. Different: The magnetic is a cross-product vector, with direction given by the right hand rule by convention. This contrasts with the electric field E, a polar vector.