Yes, the rules for applying attraction and repulsion forces are the same for electric charges and magnets.
Magnetic poles can not exist and monopoles but must be in pairs where you have a force from one polarity to another. Electric charges, such as plus and minus, can exist alone.
Accelerating electric charges.
Moving electric charges create electromagnetic fields.
magnetic monopoles
Basically moving electric charges will create a magnetic field.
Magnetic poles can not exist and monopoles but must be in pairs where you have a force from one polarity to another. Electric charges, such as plus and minus, can exist alone.
Accelerating electric charges.
Moving electric charges create electromagnetic fields.
magnetic monopoles
Like poles repel; opposite poles attract. They are similar to electric charges, for they can both attract and repel without touching. ... Electric charges produce electrical forces and regions called magnetic poles produce magnetic forces.
Magnetic dipole is due to two poles of magnet. Electric dipole is due to +ve and -ve charges of electric charges.
Both magnetic materials and moving electric charges induce magnetic fields.
Electric and magnetic fields contain energy and information. They transport this energy and information through space. In the case of electric fields, they are generated by stationary electric charges and transport energy and information by interacting with other charges. Magnetic fields, on the other hand, are generated by moving charges or changing electric fields and also transport energy and information through their interactions with other magnetic fields or moving charges.
Basically moving electric charges will create a magnetic field.
The magnetic force acts only on moving electric charges; A constant electric current produces an unchanging magnetic field and a changing electric current produces a changing magnetic field.
yes
A magnetic field is induced by moving electric charges, either by an actual electric current, or the way that electrons (charged particles) spin around the nucleus [in the case of magnetic materials becoming magnetized].