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∙ 11y agoThat would be an electromagnet. It consists of a coil of wire through which an electric current passes to generate a magnetic field.
Yes, electrical currents in a circuit can produce thermal energy due to resistance in the circuit, light if passing through certain materials like LEDs, sound if creating vibrations in the medium, and magnetic forces due to magnetic fields produced by the current flow.
When a magnetic object is moved near an electrical circuit, a magnetic field can induce an electric current in the circuit, a phenomenon known as electromagnetic induction. This current can be used to power devices or transmit information. In some cases, electrical current passing through a wire can create a magnetic field, influencing nearby magnetic objects.
Yes, electrical current can create a magnetic field around it, which in turn exerts a magnetic force on other magnetic objects or conductors nearby. This is known as electromagnetism, where the flow of electric charges (current) produces a magnetic field.
The power source, typically a battery or generator, produces the electric current in an electrical circuit. The flow of electrons from the source through the circuit forms the electric current.
In Figure 50.3, the orientation of the current in the wire produces a transformation of electrical energy into magnetic energy. The flow of current generates a magnetic field around the wire, leading to the conversion of electrical energy to magnetic energy.
The deflection of a magnetic compass in the presence of an electric current, is evidence that an electric current produces a magnetic field.
The deflection of a magnetic compass in the presence of an electric current, is evidence that an electric current produces a magnetic field.
Yes, electrical currents in a circuit can produce thermal energy due to resistance in the circuit, light if passing through certain materials like LEDs, sound if creating vibrations in the medium, and magnetic forces due to magnetic fields produced by the current flow.
All electrical circuits produce a magnetic field around the wires when a current is travelling. If we want to generate a large field, we can coil the wire. Such a coil is called a solenoid.
When a magnetic object is moved near an electrical circuit, a magnetic field can induce an electric current in the circuit, a phenomenon known as electromagnetic induction. This current can be used to power devices or transmit information. In some cases, electrical current passing through a wire can create a magnetic field, influencing nearby magnetic objects.
Electrical current is nothing but movement of electrons in case of metals. It causes heating and produces magnetic field.
All electrical circuits produce a magnetic field around the wires when a current is travelling. If we want to generate a large field, we can coil the wire. Such a coil is called a solenoid.
Yes, electrical current can create a magnetic field around it, which in turn exerts a magnetic force on other magnetic objects or conductors nearby. This is known as electromagnetism, where the flow of electric charges (current) produces a magnetic field.
Magnetic circuit follows equation (4) that is Ni = (Ф) ( l / μA) or m.m.f(magneto motive force) = (Flux) (reluctance).Electric circuit follows ohm's law that is E = I.R or e.m.f(electro motive force) = (current) (Resistance)From above point m.m.f in magnetic circuit is like as e.m.f in electrical circuit.Flux in magnetic circuit is similar as current in electrical circuit.Reluctance in magnetic circuit, S = ( l / μA) is similar to resistance R = (ρl/A) in electric circuit.Permeance (= 1/reluctance) in magnetic circuit is equivalent to conductance (=1/resistance) in electric circuit.In magnetic circuit flux establishes but not flow like as current in magnetic circuit.In magnetic circuit energy needed only to establish the flux but no consistent energy need to maintain it whereas in electric circuit continuous energy needed to flow of current.Resistance of an electric circuit is constant (for same temperature) and is independent of current but reluctance of magnetic circuit is not constant because it depends on μ (=B/H) which is not constant and depends on B/H.
The power source, typically a battery or generator, produces the electric current in an electrical circuit. The flow of electrons from the source through the circuit forms the electric current.
You can detect the magnetic field by its pull on another magnet, including a compass needle.
The current flowing in an electrical circuit.