The charges 91, 92, and q3 are arranged at the corners of a rectangle shown below. Find the direction and magnitude of the net electrostatic force exerted on the point charge q3 in the figure below. Let d = 13.4 cm, h = 8.02 cm, 9₁ = 3.41 μC, q2 = 6.05 μC, and q3 = -2.23 μC. h 2₁ !~~ d 92 13
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- Please answer the following question(s): In the figure below Q₁ =+3.0 μC, Q2 =-6.0 μC and Q3 = +2.0 μC. x=0 Q3 Q3 = +2 μC x=0 cm F2-1 Use the applet below to draw a free body diagram of charge Q₁. 1. The choices for the force of Q2 on Q₁, F21, are shown as arrows with the yellow tails. The choices for the force of Q3 on Q₁, F3→1, are shown as arrows with the green tails. If F2→1 is greater than F3→1 pick the larger vector for F21 and the smaller vector for F31 and vice-vel F₂-1 2. Drag and place the two force vectors on Q₁ (blue dot) picking the correct choice for the directi and magnitude of the two forces. Q1 x=3cm Select the appropriate directions and relative magnitudes of F21 and F31 and place their tails on Q₁. F2-1 x = 1 cm F2-1 Q2 x=4cm x = 2 cm Q₁ = +3 μC X x = 3 cm F3-1 F3-1 Q2 = -6 µC x = 4 cm F3-1 F3-1Three charges are placed on a horizontal line. Charges q1 = +7 nC and q2 = -3 nC are fixed in place, with q2 2.0 m to the right of q1. Charge q3=+5 nC is in equilibrium but free to slide on the line (but not off of it.) a. Find the distance between q3 and q1 and whether q3 is to the right or left of q1. b. If q3 can move along the line away from its initial location, is the equilibrium stable or unstable? How did you decide? c. If q3 were were on a vertical line instead, so it could move up and down but not horizontally, would the equilibrium be stable or unstable for that motion? How did you decide? mPlease answer the following question(s): In the figure below Q₁ +3.0 μC, Q2 =-6.0 μC and Q3 = +2.0 μC. X=0 Q3 Q3 +2 μC Use the applet below to draw a free body diagram of charge Q1. 1. The choices for the force of Q2 on Q1, F2-1, are shown as arrows with the yellow tails. The choices for the force of Q3 on Q1, F31, are shown as arrows with the green tails. If F21 is greater than F3+1 pick the larger vector for F21 and the smaller vector for F31 and vice-vel x = 0 cm F2₂-1 2. Drag and place the two force vectors on Q₁ (blue dot) picking the correct choice for the directi and magnitude of the two forces. F2-1 Q1 x=3cm Select the appropriate directions and relative magnitudes of F2-1 and F3-1 and place their tails on Q₁. F2-1 x = 1 cm F2-1 Q2 x=4cm + x 2 cm Q₁ = +3 µC X x = 3 cm F3-1 F3-1 Q2 = -6 μC x = 4 cm F3-1 F3-1
- Given the arrangement of charged particles in the figure below, find the net electrostatic force on the 9₁ = 5.15-μC charged particle. (Assume q2 = 16.33 µC and 93 = -19.12 μC. Express your answer in vector form.) 7 = X N 91 (-2.00 cm, 0) 93 (1.00 cm, 1.00 cm) 92 (0, -1.00 cm)Q1 - 20.0 nC 8. A certain electric quadrupole is made by arranging three point charges as shown below. Assume the distances Q2 = + 20.0 nC P from Q1 to Q2 and from Q2 to Q3 18.0 cm are equal. 24.0 cm - 20.0 nC A small pith ball of mass 0.40 g and a charge of +5.50 nC is placed at point P and released from rest. Find the magnitude and direction of its acceleration. If the signs in Q1, Q2, and Q3 were reversed, how would the acceleration change, if at all? Explain using physical reasoning.a 3 In the figure, the particles have charges q1 = -92 800 nC and 93 = -94 = 90.4 nC, and distance a = 7.25 cm. What are the (a) x and (b) y components of the net electrostatic force on particle 3? (a) Number i 0.03353 (b) Number i -0.07132 Units 'Units ST N N
- Pls asap1. Figure below shows an arrangement of four charged particles with 0 = 30.0°and the distance d= 2.00 cm. Particle 2 has charge q2 =+ 8.00x10 -19C; particle 3 and 4 have charges q3=q4=- 1.60 x 10 -19 C. y (a) What is distance D between the origin and particle 2 if the net electrostatic force on particle 1 due to the other particles is zero? (b) If particles 3 and 4 were moved closer to the x axis but maintained their symmetry about that axis, would the required value of D be greater than, less than, or same as part (a)? d D 2 1 4