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Could a magnetic field be electrons flowing through power lines?

A magnetic field is caused by flowing currents, but the field lines are not directly related to the flow of electrons or other charged particles. They are simply an abstraction that tells you where the magnetic attraction is strongest, and in what direction it goes.


What is the shape of a magnetic field when two magnets are repelling?

When two magnets are repelling each other, their magnetic fields interact in such a way that the field lines extend outward from the north pole of one magnet and do not enter the north pole of the other. Instead, the field lines curve around, indicating that the magnetic forces are pushing away from each other. This results in a pattern where the magnetic field lines are denser near the poles and sparse farther away, illustrating the repulsive interaction.


Why is the density of field lines greater at the poles of a magnet than anywhere across it?

The density of field lines is greater at the poles of a magnet because the magnetic field lines are closer together due to the concentrated magnetic force at the poles. This density is a visual representation of the stronger magnetic field that exists at the poles compared to other areas across the magnet.


Does the gravity affect the magnetic force lines by space distortion?

Magnetic lines of force follow space. If space is distorted by the presence of a large gravitational field, the magnetic lines will be distorted as well. Other than near black holes, this effect is negligible.


Why is the iron fillings go to the poles more?

Iron filings align along the magnetic field lines due to the magnetic forces exerted by a magnet. When scattered around a magnet, they tend to cluster at the poles because the magnetic field is strongest there. This visualizes the magnetic field pattern, showing how the lines extend from one pole to the other. The concentration of iron filings at the poles illustrates the field’s intensity and direction.

Related Questions

Magnetic field lines cross each other?

No, they don't.


Can electric field lines cross?

Lines of force don't exist. They can't cross each other because they aren't there. The common (related) demonstration of magnetic lines of force using iron filings works because of the fact that the iron filings become little magnets and line up head to tail. If you photograph them and re-run the experiment you will see that the lines are different, which shows that they are an "artifact" of the magnetic field. No actual lines exist.


Why magnetic field lines are closer at the bottom?

Magnetic field lines are closer at the bottom of a magnet because the magnetic field strength is stronger in that region. This increase in field strength causes the field lines to compress closer together. The field lines spread out as they move away from the magnet, resulting in the characteristic pattern of magnetic field lines emerging from the poles and converging at the other side.


Imaginary lines of force around a magnet?

Imaginary lines of force around a magnet are called magnetic field lines. They represent the direction and strength of the magnetic field. These lines provide a visual way to understand how magnetic fields behave and interact with other magnets or magnetic materials.


Magnectic field lines of force will not go through?

Magnetic lines do not cross each other. it is natural phenomenon.AnswerMagnetic 'lines of force' do not actually exist. They simply represent a 'model' which is used to explain the behaviour of a magnetic field through the use of something we can easily understand. In this case, one of the conditions for this model to apply is that these imaginary lines of force cannot intersect.The lines do not cross because the field can not have two values at one point. There is a basic equation that says that the lines always form closed loops:div B = 0, one of Maxwell's equations describing a property of the magnetic flux density B.


Do electric field lines cross?

No, electric field lines do not cross each other. If they did, it would imply that there are multiple directions for the electric field at the same point, which is not possible. The electric field lines always repel or attract each other, but they never cross.


How do repelling magnetic field lines interact with each other?

When repelling magnetic field lines interact with each other, they push away from each other due to their like charges. This creates a force that causes the field lines to move apart and maintain a distance from each other.


What do magnetic field lines look like when two magnets attract each other?

When two magnets attract each other, the magnetic field lines curve from one magnet to the other in a continuous loop, showing the path of the magnetic force between them.


What happens when a magnets magnetic field lines are close together?

When a magnet's magnetic field lines are close together, it indicates a strong magnetic field. The magnetic field strength is higher, leading to more intense interactions with nearby objects and potentially stronger magnetic forces acting between the magnet and other magnetic materials.


Why the magnetic field lines do not intersect each other?

Magnetic field lines do not intersect each other because each point in space can have only one direction of the magnetic field. If two lines were to intersect, it would imply that the magnetic field has two different directions at that point, which is impossible. This property ensures that the magnetic field is well-defined and consistent throughout the space it occupies. Additionally, intersections would suggest conflicting magnetic forces, which cannot physically occur.


Why magnetic field lines are more crowded at the poles?

Magnetic field lines are more crowded at the poles because the magnetic field strength is stronger in those regions. Since the field lines originate from one pole and terminate at the other, the lines become more concentrated as they move towards the poles. This concentration is due to the converging nature of the field lines as they approach the poles.


What do magnetic field lines look like when two magnets repel each other?

When two magnets repel each other, the magnetic field lines will curve away from each other, showing a pattern of lines that do not intersect and point in opposite directions.