To form the magnetic field that rotates the motor. :)
The combination of a magnetic field and a coiled wire creates an electromagnetic induction effect, which generates an electric current in the wire. This phenomenon is the basis for the operation of electric generators and transformers.
The coiled filament in a wire increases the resistance, which in turn increases the amount of heat produced when an electric current passes through it. This enables the wire to function as a heating element in appliances like toasters and ovens.
When a magnetic field intersects a coiled wire, it induces an electric current to flow in the wire. This phenomenon is known as electromagnetic induction and is the fundamental principle behind electrical generators and transformers.
Magnets and electricity are related through electromagnetism. When an electric current passes through a coiled wire, it creates a magnetic field around the wire. This principle is used in electromagnets, electric motors, and generators.
The coiled wire on top of a light bulb that gets hot when electricity passes through it is called a filament. It is typically made of tungsten, which has a high melting point and can withstand the high temperatures generated by the electric current.
No. A coiled wire can never become an electric bell without some more piecesand parts. When you have those, however, assembled in the right way, it's truethat passing an electric current through the coiled wire will cause the bell to ring.
The combination of a magnetic field and a coiled wire creates an electromagnetic induction effect, which generates an electric current in the wire. This phenomenon is the basis for the operation of electric generators and transformers.
yes
An electromagnet is created by running electric current through a coiled conductive wire.
An electromagnet is created by running electric current through a coiled conductive wire.
The coiled filament in a wire increases the resistance, which in turn increases the amount of heat produced when an electric current passes through it. This enables the wire to function as a heating element in appliances like toasters and ovens.
Magnetic field.
When a magnetic field intersects a coiled wire, it induces an electric current to flow in the wire. This phenomenon is known as electromagnetic induction and is the fundamental principle behind electrical generators and transformers.
Magnets and electricity are related through electromagnetism. When an electric current passes through a coiled wire, it creates a magnetic field around the wire. This principle is used in electromagnets, electric motors, and generators.
A simple voltaic cell or battery is formed when a copper wire is coiled around a metallic substance (such as iron) in a bath containing an electrolyte solution. The chemical reaction between the metal, electrolyte, and copper wire generates an electric current.
The coiled wire on top of a light bulb that gets hot when electricity passes through it is called a filament. It is typically made of tungsten, which has a high melting point and can withstand the high temperatures generated by the electric current.
The combination of a magnetic field and a coiled wire can create an electric current through electromagnetic induction. When the magnetic field changes within the coil, it induces a voltage that leads to the flow of current within the wire. This phenomenon forms the basis of how generators produce electricity.