A net force acts on the electrons in the copper wire ...the electrons move depending on the direction of magnetic field and the motion of the wire and henc e there will be a current in the wire
A copper wire produces a magnetic field when an electric current flows through it. This is due to the interaction between the moving electrons in the wire and the magnetic field they generate.
When a magnet touches copper, there is no attraction or repulsion between them. This is because copper is not a magnetic material, so it does not interact with the magnetic field produced by the magnet.
The copper by itself will do nothing of the sort. It will be surrounded by magnetic field lines if a current flows through it. It is the current that produces the magnetic field lines.
When a magnet is moved through a copper tube, it creates a changing magnetic field. This changing magnetic field induces an electric current in the copper tube through electromagnetic induction. This demonstrates the principles of electromagnetic induction, where a changing magnetic field can generate an electric current in a conductor.
Copper is not naturally magnetic, but it can be made magnetic by introducing a magnetic field to it. This can be done by placing the copper in a strong magnetic field or by alloying it with other metals that are magnetic, such as iron or nickel.
Copper and magnets interact with each other through a phenomenon called electromagnetic induction. When a magnet is moved near a copper conductor, such as a wire, it creates a magnetic field around the conductor. This magnetic field induces an electric current to flow through the copper, generating a magnetic field of its own. This interaction between the magnetic fields of the magnet and the induced current in the copper is what causes the two materials to interact.
When you pass an electric current through a copper wire that is wound around a magnet, it creates a magnetic field that aligns with the magnetic field of the magnet. This process strengthens the overall magnetic field around the magnet, effectively increasing its power. This principle is the basis of how electromagnets work.
You need copper wire to pass through a magnetic field
When a magnet falls through a copper tube, it creates a changing magnetic field. This changing magnetic field induces an electric current in the copper tube through electromagnetic induction. The induced current creates a magnetic field that opposes the motion of the magnet, causing it to slow down and demonstrating the principles of electromagnetic induction.
An electronic currant run through a copper coil will create a magnetic field.
it produces a magnetic field. i think that if current is passed through the wire it can attract pieces of iron
moving a loop of wire through a magnetic Field. The rotation of a coil of copper wire trough a magnetic field changes magnetic field as "seen" from the coil inducing an alternating current.