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the poles (north and south) create the magnetic fields Magnetic fields are, in the end, the result of the movement of electrostatic charges. Any charged particle will create a magnetic field around its path of travel. (And, conversely, it can be affected by an external magnetic field.) It could be the separation of charges that creates a magnetic dipole, as in an atom. (Positive nucleus with the negative electron cloud about it.) It could be the movement of electrons in a conductor. (Electric current flow in a wire.) One of the four basic forces in the universe is the electromagnetic force. Not the magnetic force, but the electromagnetic force. If there's no moving charge, there's no magnetic field. The two phenomenon are intrinsically connected.
What else can I help you with?
Is there an antimagnetic material that is thin and block or diverted it all magnetic flux fields?
Yes, a grain-oriented form of iron called mu-metal is used as a screen of magnetic fields for such things as CRT's. This material has a high magnetic permeability, called mu (the Greek letter) in the trade, hence mu-metal. Effectively it 'short circuits' a magnetic field. A double screened cage called a Faraday Cage does the same function for electromagnetic fields.
What part of an atom is responsible for producing magnetic fields?
The part of an atom responsible for producing magnetic fields is the electrons. Electrons possess a property called "spin," which generates a magnetic moment. When electrons move around the nucleus of an atom, their spinning motion creates a magnetic field. This magnetic field can interact with other magnetic fields to produce various magnetic effects.
Is iodine magnetic?
No, iodine is not magnetic. It is a non-magnetic element and does not interact with magnetic fields in the same way that magnetic materials, such as iron or nickel, do.
Is quartz magnetic?
Quartz is not considered magnetic because it is a diamagnetic material, meaning it does not have a magnetic field of its own and is weakly repelled by magnetic fields.
What is a sensitive device used to detect magnetic fields on the seafloor?
A magnetometer is a sensitive device used to detect magnetic fields on the seafloor. It measures the strength and direction of magnetic fields, which can provide valuable information about the geological structure of the seafloor and help in identifying magnetic anomalies caused by different rock types or mineral deposits.
Do magnetic fields have the same shape?
No, magnetic fields can have various shapes depending on the configuration of the magnets or current-carrying conductors creating them. The shape of a magnetic field is influenced by the orientation and arrangement of the magnetic sources.
What is net magnetic field?
The net magnetic field refers to the combined magnetic field resulting from the contribution of multiple magnetic sources in a given space. It is calculated by summing up the magnetic fields generated by individual sources or components present in the region. The net magnetic field's strength and direction can vary depending on the orientation and magnitude of the contributing magnetic fields.
Are all magnetic fields the same size?
No
What are some common challenges and solutions related to magnetic fields problems?
Common challenges related to magnetic fields problems include interference from other magnetic sources, difficulty in accurately measuring magnetic fields, and the complexity of modeling magnetic fields in certain materials. Solutions to these challenges may include using shielding materials to reduce interference, calibrating measurement equipment regularly, and utilizing advanced simulation software to accurately model magnetic fields in different materials.
Do the other planets have magnetic fields?
yes all the other planets have magnetic fields except venus because it rotates to slowly
Can all currents produce magnetic fields?
yes
When was The Magnetic Fields created?
The Magnetic Fields was created in 1989.
Do electric and magnetic lines of force physically exist?
The "lines" of latitude, longitude, reasoning, electric fields, and magnetic fields are imaginary.
Which planet has a magnetic shield?
All planets have magnetic fields. I believe that in most cases, this magnetic field can act as a shield.
What is a science experiment that demonstrates that magnetic fields cannot be blocked?
Magnetic fields can be blocked. Magnetic fields cannot penetrate a superconductor, and regions can be shielded from magnetic fields using ferromagnetic materials.
What do you need magnetic fields for?
magnetic fields are essential to production of electricity
What can be inferred about magnetic fields and paper?
Paper is not affected by magnetic fields.
