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Electromagnetic waves consist of electrical and magnetic energy.
Electrical into magnetic, and then magnetic into mechanical.
Since light has these electrical and magnetic fields, it is a type of electromagnetic wave.
A magnetic field can induce an electrical current in a wire.
They have no electrical charge and therefore can not be bent by electrical or magnetic fields.
Coupling field is link between electrical and mechanical energies in electromechanical energy conversions. If the output is mechanical (motor), coupling field reacts with input electrical energy in terms of Back EMF which opposes the input. Coupling field absorbs energy from electrical system, converts and delivers mechanical energy. If output is electrical (generator), coupling field reacts with input mechanical energy in terms of Magnetic Drag which opposes the input. Coupling field absorbs energy from mechanical system, converts and delivers electrical energy.
conection between two or more magnetic circuits magnetically with out any electrical connection .i.e.'flux linkages are there inbetween the magnetic circuits.
its having a girlfriend that's a magnet.................................................
the answer is: magnetic...magnetic and electrical
What are the differences between electrical and magnetic circuit.
Electromagnetic waves consist of electrical and magnetic energy.
Not all the time. Many time they are the main energies being interconverted. Its basically where electrical and magnetic energies coming into play when they are of no use.
The transformer core is ferromagnetic in order to focus and concentrate the magnetic fields generated in the windings. This improves coupling and increases inductance.
A generator converts mechanical energy into electrical energy, while a motor does the opposite - it converts electrical energy into mechanical energy. Both devices work because of electromagnetic induction, which is when a voltage is induced by a changing magnetic field.
Do that on your kitchen table, and right there before your eyes, you have . . . -- a series electrical circuit -- electric current -- a magnetic field (around the wire; you can't see it) -- power dissipation -- conversion of chemical energy into electrical energy -- conversion of electrical energy into heat and light -- electromagnetic radiation in the infrared and visible bands
"Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces.
Yes, an electrical generator uses magnetic fields to transfer mechanical energy into electrical energy.