how does increasing the distance between charged objects affect the electric force between them?\no the…

how does increasing the distance between charged objects affect the electric force between them?\no the electric force increases because the distance has an indirect relationship to the force.\no the electric force increases because the distance has a direct relationship to the force.\no the electric force decreases because the distance has an indirect relationship to the force.\no the electric force decreases because the distance has a direct relationship to the force.
Answer
Brief Explanations:
According to Coulomb's law, the electric force (F) between two charged objects is given by (F = k\frac{q_1q_2}{r^2}), where (k) is a constant, (q_1) and (q_2) are the charges of the two objects, and (r) is the distance between them. The force is inversely - proportional to the square of the distance ((r)). So, as the distance (r) increases, the electric force decreases. An indirect relationship means an inverse - like relationship here.
Answer:
The electric force decreases because the distance has an indirect relationship to the force.