m. When a negative charge moves in the direction of an electric field, the field does positive work and the potential energy decreases. A. 1&IV Fina B. I1&II С. 18. D. Il&IV . How much work is done in moving a charge between two points on the same equipotential surface? C. maximum D. undetermined A. zero B. depends on the charge A negative charge moves in the direction of a uniform electric field. What !. Two with 8. does this entail? A. The charge moves to a position of higher potential. B. The charge moves to a position of lower potential C. The charge moves to a position with the same potential D. The potential cannot be determined. Giv

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this charge? A. increases 6. Which of the following statements are TRUE? L when a positive charge moves in the direction of an electric field, the field does negative work and the potential energy increases. B. remains the same C. decreases D. undetermined Il when a negative charge moves in the direction of an electric field, the field does negative work and the potential energy increases

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when a negative charge moves in the direction of an electric field, the field does positive work and the potential energy decreases. A. 1&IV Final Answer: C. 1&III D. I1&IV B. I1&III - How much work is done in moving a charge between two points on the same equipotential surface? A. zero C. maximum !. Two-point ch B. depends on the charge A negative charge moves in the direction of a uniform electric field. What D. undetermined 8. with a final s does this entail? Given: A. The charge moves to a position of higher potential. B. The charge moves to a position of lower potential C. The charge moves to a position with the same potential D. The potential cannot be determined. The unit Volt, V is the same as. A. J/C Electric potential A. increases 9. C. JC as distance increases. C. decreases D. 0 B. C/J D. CJ Find: 10. Final Answer: B. remains constant