Charge lies in the z = 0 plane, in the form of a square sheet defined by -2 ≤x≤2m, -2 sys2m with charge density P₁ = 2(x² + y² +9²) ³/2nC/m² Find the magnitude of the force F on a charge of 6 nC located at (0,0,3). 5.184 miliN 144 MN 870 milin Ninguna de las respuestas es correcta.
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Q: y, cm 91 = 1.0 x 10-6 C 92 =-4.0 x 10-6 C 93 = 5.0 x 10-6 C 3 e 92 1 93 x, cm 1 a) Find the…
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Q: 8. A charge q₁ = -5.4 uC is at the origin, and a charge q2 = -2.2. uC is on the x axis at x = 1.0m.…
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A: Given:- The Two charges is q1 = -2.5 μC and second charge is q2 = 3.5 μC The distance between the…
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Q: What is the magnitude and direction of the force acting on the charge, 93, in the diagram below?…
A: Given value--- q1 = 4 nC. q2 = - 3 nC. q3 = 6 nC. We have to find--- net force on q3 ?
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Q: Find the force exerted on Q2 and QI by Q3? Where a charge of QI = (5x10 C) at pl(1.2,3), a charge of…
A: Force on Q2 by Q3 = k Q2 Q3r2 r^ r = (2-1)i +(0-1)j+(5-1)k = (1)i +(-1)j+(4)k |r| = 12 +-12+42 =…
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A: a)
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Q: 91 Charge q₁: 91 = +10.0 μC at X₁ = 0.0 m Charge q2: q2 = -25.0 μC at X₂ = 0.4 m Charge 3: 93 =…
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Q: +2Q +30 8.00 cm
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Q: 3. In the following system: q₁ = +8.0 μC, q2 = -6.00 μC, q3 = -10.0 μC. 1μC= 1 x 10-6 C 91 6m 8m 93…
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Q: Three point charges are located at the corners of an equilateral triangle as shown. Each leg of Q₁…
A: Given that, Three charges are located at the vertices of an equilateral triangle. The side of the…
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- 6| 17 aölJI - 2 uacl X 10 uluilg (-) X Content Google dai X 9 https://blackboard.uob.edu.bh/ultra/courses/ 24065 1/cl/outline Not syncing Remaining Time: 29 minutes, 53 seconds. * Question Completion Status: Consider a uniformly charged ring of radius R-0.2 m and linear charge density 2-3 µC/m as shown in the figure. Find the electric potential (in V) at (p) a distance 0.7 m from the center. 0 0.7 m 3.1x 10* 6.2 x 104 O9.3x 104 7.8x 104 O 4.7x10 7:05 PN 4/3/202 archQuestion 1 A positively charged particle q= 12 µC is placed between two infinite charged sheets with surface charge density +a and-a as shown in the figure. If aj-3.54 µC/m², then the magnitude of the electric force (in N) on the particle is: 0.0 90 ON 48 0.00 06728
- 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)= Charges q₁ q2 = 93 = 10.0 μC have positions ₁ 73 = (0.00, 0.00). Calculate the electric force vector on charge q₁. Y 92 1.20 93 1.60 2.00m. qi 36.9° X 1.60 m î+ 1.20 mĵ72 = 1.20 m ĵ, andGgg
- Criterion A: Knowing and understanding i. state scientific knowledge. (Max. 2 points) Two small charged objects have charges of Q = -5.77 × 10-7 C and q = –1.23 × 10¬5 C. The force between them is 2.31 × 10-³ N. Calculate the distance between them (3SF). 1 Qq F 4TE0 p2 x10-3 N = 8.9875 × 10° N m² C-²×( x10-7 C× |x10-5 C) ÷r² 2.31 x 10-3 N = 8.9875 × 10° N m² C-2x( x10-12 C²) ÷r2 V((8.9875 × 10° N m? C-²× ×10-12 C²) ÷ x10-³ N) r = ||Using the values given below, find the electric field at point X due to the two charges q1 and 92. qi -0.077.μ., q,= 8.μ., a = 0.56_m, b = 0.2_m, c = 0.74_m %3D 5. magnitude 86230_N/C 90830_N/C 115400_N/C 238800_N/C 203900_N/C 123000_N/C A. D. В. Е. С. F. |--/ 0.7 lm r1 r2 C 6. direction А. 104.8° D. 141.2° a b 91 q2 % В. 167.6° E. 170.4° C. 152.1° F. 116° |--/