Magnetic field.
Not true - Moving a wire through a magnetic field doescreate a current flow in a wire.false
A magnetic field is generated whenever a current is passing through a wire.
You can reverse the direction of the magnetic field by reversing the direction of the electrical current.
Faraday says you will induce a current in the wire.
Current flows through a wire and produces a magnetic field.
CIRCULAR
Magnetic field.
The movement through a magnetic field will induce a voltage; if there is a closed circuit, that will produce a current. The current, in turn, will have a magnetic field, which will interact with the external magnetic field. The direction of the interaction will be such that energy is conserved, i.e., it will tend to slow the wire down.
Eiectricity flows through wire not around the magnetic field.
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.
A wire moving through a magnetic field, or a magnetic field moving in relation to a wire.
Not true - Moving a wire through a magnetic field doescreate a current flow in a wire.false
A magnetic field around the wire.
If you pull a conductor (e.g., a wire) through a magnetic field, a voltage is induced in the conductor - and if such a wire for example is connected to a circuit, a current can flow.Note that - since the current in the wire produces its own magnetic field - a force is required to pull the wire through the magnetic field, so you don't get the energy "for free"; you simply convert one type of energy into another one.
A magnetic field is generated whenever a current is passing through a wire.
Yes, an electric current traveling through a wire generates a magnetic field. There is no way that it cannot do this.