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Typically organic cells are not affected by normal electromagnetic fields, since they are not conductive. However, any small field could affect a single cell if the single cell were in the field. The effect, however would probably not be able to be measured, whatever it might be.
There is ongoing, and some newly initiated research, designed to answer this question. It will take some time before this question can be answered comprehensively.
What else can I help you with?
When electric and magnetic fields both exist it is called an?
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.
Could a wire skipping rope generate an electromagnetic field?
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.
How does a rotating dipole radiation affect the electromagnetic field around it?
A rotating dipole radiation causes the electromagnetic field around it to change direction and strength periodically. This results in the emission of electromagnetic waves in all directions, similar to a spinning top creating ripples in water.
Would a moving electric charge that is surrounded only by an electric field be an electromagnetic wave?
No, a moving electric charge surrounded only by an electric field would not be considered an electromagnetic wave. Electromagnetic waves are a combination of electric and magnetic fields oscillating perpendicular to each other and to the direction of propagation. A moving electric charge in an electric field alone would not exhibit this characteristic.
What are the differences between EMF and EMP, and how do they affect electronic devices?
EMF (electromagnetic field) is a continuous field of electromagnetic radiation, while EMP (electromagnetic pulse) is a sudden burst of electromagnetic energy. EMF can interfere with electronic devices over time, while EMP can cause immediate and severe damage to electronic devices by overwhelming their circuits.
If the electromagnetic field were to suddenly disappear what could potentially occur on the planet?
Nothing will happen that concerns you.
How is it possible for the sun to affect the earth's magnetic field?
The sun ejects significant quantities of charged particles. These interact via the electromagnetic force with the magnetic field of the earth.
What determines the direction of polarization of a radiated electromagnetic field?
The polarization of an electromagnetic field is defined as the direction of its E field (electrostatic).
When electric and fields both exist it is called an electromagnetic?
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.
What are facts about electromagnetic fields?
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.
What is the significance of the fringing field in electromagnetic field theory?
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.
What causes an electromagnetic field?
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.
