Answer:
b) the specific location of the charged particle A
f) the distance between the point charge Q and the charged particle A
Explanation:
For this exercise we write the electric field
E = k Q / r²
where r is the distance between charge Q and test charge A
Let's examine the different claims
a) do not depend. The charge of the individual is independent of the elective field
b) depends. The position of the particle is different if it has the same distance
c) do not depend. The particle Q must be considered the origin of the coordinate system
d) does not depend. The charge of a particle is independent of the field where it is
e) does not depend. The position of the particle is fixed
f) depends. The field is different for each distance
g) does not depend. The amount of electric charge is independent of the field
The magnitude of the electric field created by charge Q at particle A depends on
because, the directions of the electric field lines for a positive charge and a negative one are just opposite to each - other,
because the direction of the electrostatic force vector just reverses for a reversion of the relative orientation of the charges.
It is simply defined as the force per charge on the test charge.
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