Questions 8-10 refer to the figure below. 91 а 92 а а 94 a 93 8. Four charges q1 = +Q, q2 = +Q, q3 = -Q, and q4 = -Q are in the corners of a square. The sides of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on q1 due to q2, 93, and q4. A. k(-0.65ê – 1.35ŷ) C. k (0.65ê + 1.35ŷ) B. k(-1,35 – 0.65ŷ) D. (1.35â + 0.65ŷ) kQ² 9. Four charges q1 = +Q, q2 = +Q, q3 = -Q, and q4 = -Q are in the corners of a square. The sides of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on q2 due to q1, 93, and q4. A. k (0.65£ – 1.35ŷ) C. k(-0.65& + 1.35ŷ) B. k(1.35â – 0.65ŷ) D. E(-1,35x + 0.65ý) 10. Four charges q1 = +Q, 92 = +Q, 93 of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on q3 due to q1, 92, and q4. = -Q, and q4 = -Q are in the corners of a square. The sides A. E(-0.65 –- 1.35ý) C. k (0.65.ê + 1.35ý) B. (-1.35 –- 0.65ý) D. (1.35 + 0.65ŷ)

Transcribed Image Text:

Questions 8-10 refer to the figure below. 91 а 92 а а 94 а 93 8. Four charges q1 = of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on q1 due to q2, 93, and +Q, q2 = +Q, 93 = –Q, and q4 = -Q are in the corners of a square. The sides 4. A. ke (-0.65ây – 1.35g) C. kQ (0.65 + 1.35ŷ) В. К(-1.352 — 0.659) D. k (1.35â + 0.65ý) a2 a2 9. Four charges q1 = +Q, q2 = +Q, q3 = -Q, and q4 = -Q are in the corners of a square. The sides of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on 2 due to q1, 93, and q4. A. k (0.65â – 1.35ŷ) C. E(-0.65£ + 1.35ŷ) D. g(-1,35 + 0.65ý) Q² B. k (1.35â – 0.65ý) 10. Four charges q1 = +Q, q2 = +Q, q3 = -Q, and q4 = -Q are in the corners of a square. The sides of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on q3 due to q1, 92, and q4. A. k(-0.65â – 1.35g) B. k(-1.35â – 0.65ŷ) D. ke (1.35€ + 0.65ŷ) С. К (0.65 + 1.35)