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Electromagnetic and electrostatic fields are present. The strength of each field is dependent upon the components in the electrical circuit.
Well one way to look at it is that a photon IS an electromagnetic field. The photon is the gauge particle for the electromagnetic force. Without photons there would be no electromagnetic interaction force, and therefore no electromagnetic fields.
Electromagnetism is the force that causes the interaction between electrically charged particles; the areas in which this happens are called electromagnetic fields.
False
Water is matter. Electromagnetic energy is energy in the form of electric fields and magnetic fields.
Electromagnetic and electrostatic fields are present. The strength of each field is dependent upon the components in the electrical circuit.
Well one way to look at it is that a photon IS an electromagnetic field. The photon is the gauge particle for the electromagnetic force. Without photons there would be no electromagnetic interaction force, and therefore no electromagnetic fields.
Electromagnetism is the force that causes the interaction between electrically charged particles; the areas in which this happens are called electromagnetic fields.
No. There's no such law, because as far as any research findings in Physics up to the present time, there is no apparent relation between gravitational force and electromagnetic force.
Cells that detect and respond to electromagnetic fields, allowing for the detection of magnetic fields.
Electromagnetic fields can be varying in intensity. A magnet is static.
False
Water is matter. Electromagnetic energy is energy in the form of electric fields and magnetic fields.
Electromagnetic waves are force fields generated by vibrating, electrically charged particles. They are described mathematically by the Maxwell Equations.
B. Blake Levitt has written: 'Cell Towers' 'Electromagnetic fields' -- subject(s): Electromagnetic fields, Health aspects, Health aspects of Electromagnetic fields, Physiological effect
by electromagnetic fields
In an electromagnetic wave, the electric and magnetic fields are perpendicular to each other and are in phase.