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.
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.
Electromagnetic Induction
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.
Yes, the more voltage you put in the more you get out. If the transformer is a 2 - 1 ratio and you put 240 in you get 120 out and when you put 480 in you get 240 out. Magnetic field strength and voltage have a direct relationship. +++ The field strength is actually a function of current, although as you say, increasing the voltage will increase the current hence the magnetic field.
Increasing the coils will increase the strength of the magnetic 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.
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.
The fringing field in electromagnetic field theory is important because it represents the field outside the main region of interest, providing valuable information about the behavior of the electromagnetic field. Understanding the fringing field helps in accurately predicting the interactions and effects of electromagnetic fields in various applications, such as in antennas, sensors, and electronic devices.
An electromagnetic field is caused by electric charges in motion. When charged particles move, they create a type of energy called electromagnetic radiation, which generates an electromagnetic field. This field consists of both electric and magnetic components, propagating outwards from the moving charges.
An electromagnetic field can exert a force on an electron, causing it to accelerate or move in a specific direction. The direction and magnitude of the force depend on the strength and orientation of the electromagnetic field.
An electromagnet uses an electromagnetic field to generate a magnetic field when an electric current flows through it.
when and where was the electomagnetic field
Nothing I know of but an "electromagnetic field" is a field with one axis the electrical one and another axis the magnetic one and a third axis of spacetime. Light is an electromagnetic field phenomenon.
An electromagnetic field consists of both an electric field and a magnetic field, which are interconnected and interact with each other. This field is generated by the movement of electrically charged particles and is fundamental to the behavior of light and other electromagnetic radiation.