Yes, they are sort of the same thing.
Explanation:
First let me explain something about net Force.
With net Force they usually mean the netto force.
The netto force is the final result of the sum of the forces involved.
By writing "net Force", you save some time because you assume it is not necessary to explain that you mean the samething as "the end-result of the sum of all the forces involved".
Net force charge is the resulting force caused by some form of charge.
Net electric force is the resulting force caused by any two charged objects.
An electric force is the attractive or repulsive interaction between any two charged objects. The magnitudes of the forces are then added as vectors in order to determine the resultant sum, also known as the net force. The net force can then be used to determine the acceleration of the object.
The force exerted by one charge q on another charge Q is given by Coulomb's law:
Coulomb's law calculates the electric force F in newtons (N) between two electric charges q1 and q2 in coulombs (C)
with a distance of r in meters (m):
F=k (q1*Q2)/r²
F is the force on q1 and Q2 measured in newtons (N).
k is Coulomb's constant k = 8.988×109 N⋅m2/C2
q1 is the first charge in coulombs (C).
Q2 is the second charge in coulombs (C).
r is the distance between the 2 charges in meters (m).
When charges q1 or Q2 is increased, the force F is increased.
When distance r is decreased, the force F is increased.
The smaller the distance, the bigger the Force. If charges are very far from each other there is no Net electric force between them.
