Changes in the magnetic field
According to electromagnetic theory, a changing magnetic field induces an electric field. This phenomenon is known as electromagnetic induction, where the changing magnetic field creates a force that causes electrons to move, generating an electric current.
Electrons are the subatomic particles gained or lost during friction induction and conduction. This transfer of electrons is what causes static electricity to build up on objects.
The force that causes electrons to be transferred in electrostatics is the electromagnetic force. This force is responsible for the attraction or repulsion of charged particles, such as electrons, due to their electric charge.
the electrons in the wire begin to flow
electromagnetic induction
According to electromagnetic theory, a changing magnetic field induces an electric field. This phenomenon is known as electromagnetic induction, where the changing magnetic field creates a force that causes electrons to move, generating an electric current.
electromagnetic force
Electrons are the subatomic particles gained or lost during friction induction and conduction. This transfer of electrons is what causes static electricity to build up on objects.
The force that causes electrons to be transferred in electrostatics is the electromagnetic force. This force is responsible for the attraction or repulsion of charged particles, such as electrons, due to their electric charge.
the electrons in the wire begin to flow
electromagnetic induction
Change in magnetic flux.iechange in magnetic field (B).change in the area vector/ area of magnetic field under the closed circuit (A).The angle between area vector and magnetic field .......xomagnetic flux = cosxo . A . B
When a magnetic field around a conductor is changed, it induces an electromotive force (EMF) in the conductor. This EMF causes a current to flow in the circuit, known as electromagnetic induction. The current will only flow when the magnetic field is changing, as stated by Faraday's law of electromagnetic induction.
According to Faraday's laws of electromagnetic induction, whenever a varving flux link with a conductor an emf is induced.
Magnetic induction is the process in which an item is magnetized by an external magnetic field. The force of the fields comes from the poles of the magnet to produce the magnetism. The process is also called magnetic flux density.
A magnet can induce an electrical current in a conductor by creating a magnetic field that causes electrons to move. This phenomenon, known as electromagnetic induction, is the basis for how devices like generators and transformers work. The strength of the magnetic field and the motion of the magnet will impact the amount of current generated.
During induction, if the ground connection was removed first before the charging body, the electrons on the electroscope will be stranded. This causes a negative charge on the object.