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.
Yes, the rules for applying attraction and repulsion forces are the same for electric charges and magnets.
Like charges repel each other while opposite charges attract each other.
Main similarity: Like charges repel each other, different charges attract each other.Main difference: Magnetic "charges" can't be separated. At least, so far it has not been achieved.
Electric current causes magnetic field around conductor by producing a moving electric charges and the intrinsic magnetic moments of an elementary particles that is associated with a fundamental quantum property.
Electric fields are similar to magnetic fields, and can be "compressed" by the imposition of other electric or magnetic fields.
Main similarity: Like charges repel each other, different charges attract each other.Main difference: Magnetic "charges" can't be separated. At least, so far it has not been achieved.
Both magnets and static electricity repel like charges and attract to opposite charges. Magnets repel the same poles and attract opposite poles. Static electricity repels like charges and attracts unlike charges.
Similar charges will repel each other.
There are two oppositely "charged" poles for both electric and magnetic. For magnetism we call the poles North and South, while for static electricity we call the poles positive and negative. Of course, you can walk away with the electrically charged positive pole, while you can't walk away with the North "charged" pole. There are differences. There is (apparently) no magnetic monopole.
electric current in a solenoid coil
Electric fields are described by Coulomb's Law, and they are fairly straightforward; like charges repel and opposite charges attract. Magnetism is more complicated, although it looks very similar, since like poles repel and opposite poles attract. But where as there are electric charges which generate electric fields, there are not magnetic charges that generate magnetic fields. Magnetic fields are actually created by electric charges, just as electric fields are, which is why electricity and magnetism are both aspects of electromagnetism rather than being separate forces. Spinning electrons generate a particular kind of electric force which, in combination with other spinning electrons, winds up creating forces that can be conveniently described as magnetic lines of force. But in reality, they are a form of electric force. Physicists do theorize that there could be a particle called a magnetic monopole which generates its own magnetic force, rather than being dependent upon spinning electrons to do so, however no such particle has ever been detected and it remains purely theoretical.
Electricity is like magnetic attraction because like charges in electricity repel similar to the way like magnetic poles repel.