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distance between charged particles.
An electric field gets stronger the closer you get to a charge exerting that field. Distance and field strength are inversely proportional. When distance is increased, field strength decreases. The opposite is true as well. Additionally, field strength varies as the inverse square of the distance between the charge and the observer. Double the distance and you will find that there is 1/22 or 1/4th the electric field strength as there was at the start of your experiment.
The strength of an electric field depends on the charge that causes it, and on the distance from the charge.
Electric field strength depends on direction and magnitude because it is a vector quantity.
The amount of charge that produces the field and on the distance from the charge. (Novanet)
distance between charged particles.
As the distance from a charged particle increases the strength of its electric field DECREASES.
An electric field gets stronger the closer you get to a charge exerting that field. Distance and field strength are inversely proportional. When distance is increased, field strength decreases. The opposite is true as well. Additionally, field strength varies as the inverse square of the distance between the charge and the observer. Double the distance and you will find that there is 1/22 or 1/4th the electric field strength as there was at the start of your experiment.
The strength of an electric field depends on the charge that causes it, and on the distance from the charge.
Electric field strength depends on direction and magnitude because it is a vector quantity.
The amount of charge that produces the field and on the distance from the charge. (Novanet)
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I'm not sure what this question really means - should it be more like "what two things affect the force between two electric charges?" If this is correct then the answer is probably: 1. The amount of charges. 2. The distance between the charges.
The strength of the electric field approaches zero
No, the strength of the electric field decreases with distance from a charged object. The electric field follows an inverse-square law, meaning it decreases with the square of the distance from the source charge. So, the closer you are to the charged object, the stronger the electric field.
The strength of the electric field is a scalar quantity. But it's the magnitude of thecomplete electric field vector.At any point in space, the electric field vector is the strength of the force, and thedirection in which it points, that would be felt by a tiny positive charge located there.
Permeability