If two point charges of opposite sign are separated by distance r, and the distance is doubled, what happens to the magnitude of the electric force between them?

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Study for the Abeka Science Matter and Energy Exam. Tackle multiple choice questions, use hints, and access thorough explanations. Get prepared for your test!

Multiple Choice

If two point charges of opposite sign are separated by distance r, and the distance is doubled, what happens to the magnitude of the electric force between them?

Explanation:
Coulomb's law shows the electric force between two point charges follows an inverse-square relationship: F is proportional to 1/r^2. If you double the separation, the new force is F' = k|q1 q2|/(2r)^2 = k|q1 q2|/(4r^2), which is one quarter of the original. The opposite signs mean the force is attractive, but the magnitude scales with 1/r^2, so doubling the distance reduces the magnitude to one-fourth.

Coulomb's law shows the electric force between two point charges follows an inverse-square relationship: F is proportional to 1/r^2. If you double the separation, the new force is F' = k|q1 q2|/(2r)^2 = k|q1 q2|/(4r^2), which is one quarter of the original. The opposite signs mean the force is attractive, but the magnitude scales with 1/r^2, so doubling the distance reduces the magnitude to one-fourth.

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