Moving a conductor (a wire) in a magnetic field will create voltage in the wire. Note that relative motion must occur, i.e., the wire must move "across" the magnetic lines of force, and not "along" them to create voltage. Moving a conductor in a magnetic field is the basic idea behind motors and generators.
If an electric conductor has motion relative to a magnetic field, current will be introduced in the conductor.
Motion
Physics.
It is physics.
It creates a magnet and magnetism.
A physical phenomenon produced by the motion of electric charge, resulting in attractive and repulsive forces between objects.
I believe the answer to be: motion, magnetism as well as conductor.
Well, electricity and magnetism are not the same. Electricity is the movement of free electrons in a material, while magnetism is a field in space that has direction and magnitude. In fact, you can create electricity with magnetism and motion. and you can make magnetism with electricity and motion. And for your knowledge you can create motion with electricity and magnetism. It is a law of nature, like gravity.
mechanical by friction or by motion of a conductor
No
Residual magnetism is a property in which certain amount of excitation remains back in the conductor even after the removal of the magnets.
Yes, copper is a conductor of magnetism and electricity.
Movement conductor, magnetism
Motion
Motion
a. heat b.mass. c.sound d. magnetism a. heat b.mass. c.sound d. magnetism
................if you put it in motion around a wire, you will get electricity.
Physics.