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You can create a zero electromagnetic field in a sealed environment such as a vacuum. This mimics an environment that is immune from gravitational forces.
An EM field is not considered a force. It can however create a force if a conductive medium is moved through it.
we can create electromotive force (and electric current) by changing magnetic field linked with a conductor by the principle of electromagnetic induction which is governed by the Faraday's and Lenz's law. But electric field is created by statical electricity.
Yes. Every time someone moves a muscle, which was triggered by neurons, creates an electromagnetic field since electricity was used to make it contract. If there is a electric signal, there is a 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.
A disturbance of a plasma involving oscillation of its constituent particles and of an electromagnetic field, which propagates from one point in the plasma .
It would effect the earth's electromagnetic field as it is the spinning of the earth's core that creates the field.
You can create a zero electromagnetic field in a sealed environment such as a vacuum. This mimics an environment that is immune from gravitational forces.
I'm sure it would effect the earth's electromagnetic field as it is the spinning of the earth's core that creates the field.
Plasma is a neutral mixture of charged and neutral particles. Some charged particles are not bound or move-able under an electric field. The plasma charge density supports current flows. The Plasma has a resonant frequency related to its charge density. Plasmas can reflect electromagnetic waves, transmit and absorb electromagnetic waves.
No, a rotating masonry drill bit adjacent to a cable will not create a magnetic field and no it could not disrupt the electrical current within the cable .
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.
The field winding on a generator is the winding that is electrified to create an electromagnet; it is generally the winding found on the rotor (the rotating part of the generator).
Electromagnetic force field.
It is when opposite ends of the magnets create a magnetic field that makes the object levitate.
The temperature in both cases will depend on the exact details of the setup.
An EM field is not considered a force. It can however create a force if a conductive medium is moved through it.