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Moving electric charges will interact with an electric field. Moving electric charges will also interact with a magnetic field.
no
The electric field around an electric charge varies inversely as the square of the distance to the charge.
An electron is surrounded by an electric field. The electron is negatively charged. A moving electric charge creates a magnetic field. Use the "right-hand rule". Point your thumb up and curl your finger a bit so your hand looks like it is holding a bottle. If the electric charge (e.g. electron) is moving in the direction of your thumb, then the magnetic field it creates moves counter-clockwise in the direction of your fingers.
The electric field gets stronger as you get closer to an electric charge.
Yes. A spinning charge will create a magnetic field as will a moving charge.
A moving electric charge will produce a magnetic field.A moving electric charge will produce a magnetic field.A moving electric charge will produce a magnetic field.A moving electric charge will produce a magnetic field.
Moving electric charges will interact with an electric field. Moving electric charges will also interact with a magnetic field.
A) stationary electric charge B) moving electric charge C) stationary magnet D) a moving magnet
Electrostatic field surrounds a stationary charge. A moving charge has magnetic and electric field surrounding it. But since the mag. field at a point due to the moving charge keeps changing, there is also an induced electric field. this ind. electric field in turn induces a magnetic field. and this goes on in a cycle. (Maxwell equation)
no
The magnetic field will have no effect on a stationary electric charge. ( this means that the magnetic field is also stationary. ) If the charge is moving , relative to the magnetic field then there might be an effect, but the size and direction of the effect will depend on the direction of the electric charge as it moves through the field. If the charge is moving parallel to the field there will be no effect on it. If the charge is moving at right angles to the field then it will experience a force that is mutually orthogonal to the field and direction of the motion. You really need diagrams to properly explain this
There's something seriously wrong with the question's hypotheses.Current is moving charge, and moving charge is current.
-- Electric charge that's moving is the definition of electric current.-- It creates a magnetic field in its neighborhood.
Light and all other electromagnetic waves are produced by charged particles. Every charged particle has an electric field surrounding it.
Electric charge produces an electric field by just sitting there. It doesn't have to move. If it moves, it produces a magnetic field. It doesn't matter how the motion would be described.
Electric Field between positive and negative charges. If the Electric Field in which both the positive and negative charges are present is stronger than the Electric Field between the two charges we are talking about, the the negative charge will move away from the positive charge in that positive direction of the field. If not, then the negative charge will get attracted to the positive charge and stay at the position of the positive charge. It will be pulled toward the source of the electric field. (Novanet)