In order for a wire to generate an electromagnetic field, there must be a current passing through it. Assuming that, then yes - a wire skipping rope could generate an electromagnetic field. Since the skipping rope is turning, the field will also be moving, so it could induce a varying current in another wire in close proximity.
field coils generally refer to the electromagnetic coils on the stator ( the stationary part of an electric motor ). these generate the magnetic field(s) necessary to put the rotor ( the rotating part of the motor ) into motion.
by increasing the power of electromagnet
The electromagnetic force is a force that is expressed as (or that "shows up as") a "field" or a "group of lines of force" around the source. Electromagnetic flux is a direct reference to those magnetic lines of force. Electromagnetic flux is the electromagnetic field or the group of electromagnetic lines of force around the source. All the following sentences say the same thing: The electromagnetic flux around the magnet was very high. The magnetic flux around the magnet was very high. The magnetic field around the magnet was very large. The flux around the magnet was very high. The field around the magnet was very large. There were a large number of magnetic lines of force around the magnet making the field strength very high.
Electromagnetic Induction
None of the above. * Ghosts are not a part of physics. * Electromagnetic fields in a static sense do not exist. Electromagnetic radiation does; it consists of a changingelectric field which causes a changing magnetic field which causes a changing electric field which causes . . . and so on forever. Electromagnetic radiation moves off at the speed of light ; it has different properties depending on how fast the fields are changing, including radio waves, microwaves and light.. * A microwave oven generates microwaves. Microwave radiation cannot "detect" itself. * Cooling systems are designed and built to cool. They can't detect anything, including microwaves.
Not a constant electric current but a changing one will generate electromagnetic waves.First: If you have a lone electron, and it is accelerated in any way, it will send off an electromagnetic wave. This is because a changing electric field generates a magnetic field.It is also true that changing magnetic field will generate an electric field. This is the reason that if you have an electric current, which is generating a magnetic field, and you change the current you generate an electromagnetic wave. To generate a continuous sinusoidal electromagnetic wave you continuously change the current sinusoidally.
The short answer is yes. However, many circuit boards generate electromagnetic fields or are part of systems that intentionally or unintentionally generate fields and suffer no harm. Electromagnetic fields can induce voltages on wires or electrical pathways within the circuit board if they are : A) of sufficient strength, B) If the field is oriented a certain way, and C) if the circuit board has no shielding. These induced voltages could damage components on the circuit board.
Not really. You could have both an electric field and a magnetic field occupying the same space at the same time but they wouldn't 'make the definition' of electromagnetic until they began to fluxuate in phase at a harmonized frequency.
No, consider a coil of wire conducting a constant current. There will be a static magnetic field around it, but no electromagnetic waves with E X H = P
field coils generally refer to the electromagnetic coils on the stator ( the stationary part of an electric motor ). these generate the magnetic field(s) necessary to put the rotor ( the rotating part of the motor ) into motion.
Field pole winding is also called Field coil. Field coil is an electromagnet used to generate a magnetic field in an electromagnetic machine, typically a rotating electrical machine such as a motor or generator.
It could stand for Electromagnetic field, or Electromotive force.
Nothing will happen that concerns you.
The polarization of an electromagnetic field is defined as the direction of its E field (electrostatic).
An electromagnetic field is a physical field produced by electrically charged objects. The field can be viewed as the combination of an electric field and a magnetic field. The electromagnetic field may be viewed in two distinct ways: a continuous structure or a discrete structure.
The scientists measured the electromagnetic field.
Not really. You could have both an electric field and a magnetic field occupying the same space at the same time but they wouldn't 'make the definition' of electromagnetic until they began to fluxuate in phase at a harmonized frequency.