Three charged particles are placed at the corners of an equilateral triangle of side 1.20 m (see (Figure 1)). The charges are Q1=7.4μC, Q2=−8.2μC, and Q3=5.6μC . a ) Calculate the magnitude of the net force on particle 1 due to the other two
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Three charged particles are placed at the corners of an equilateral triangle of side 1.20 m (see (Figure 1)). The charges are Q1=7.4μC, Q2=−8.2μC, and Q3=5.6μC .
a ) Calculate the magnitude of the net force on particle 1 due to the other two
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- The figure below shows a small, charged bead, with a charge of q = +42.0 nC, that moves a distance of d = 0.177 m from point A to point B in the presence of a uniform electric field E of magnitude 280 N/C, pointing right. E 9 A + i (a) What is the magnitude (in N) and direction of the electric force on the bead? magnitude N direction (c) What is the change of the electric potential energy (in J) as the bead moves from A to B? (The system consists of the bead and all its surroundings.) PEB PE = A B + ---Select--- (b) What is the work (in J) done on the bead by the electric force as it moves from A to B? J = J (d) What is the potential difference (in V) between A and B? VB - VA VYour answer is partially correct. Point charges of q₁ = 6.19 μC and 92 = -4.40 μC are placed on an x axis, at x1 = 8.21 m and x2 = 14.2 m, respectively, as shown in the figure below. What charge q3 (sign included) must be placed at x3 = 22.1 m so that any charge q4 placed at the origin would experience no electrostatic force? Number i -0. Units με eTextbook and Media 4 2 2 2Three point charges are located at the corners of an equilateral triangle as in the figure below. Find the magnitude and direction of the net electric force on the 1.85 µC charge. (Let A = 1.85 µC, B = 7.30 µC, and C = −4.12 µC.) Three charged particles lie in the x y-coordinate plane at the vertices of an equilateral triangle with side length 0.500 m. Positive charge A is at the origin. Positive charge B is in the first quadrant, along a line 60.0° counterclockwise from the positive x-axis. Negative charge C is at (0.500, 0).
- Three point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle g = 4.82 nC at the origin. (Let r,a = 0.275 m.) magnitude N direction ° counterclockwise from the +x axis 6.00 nC 0.100 m -3.00 nC|a. Problems 1-3 refer to the following diagram and situation. Three charges 9₁ 92 93 = +1.7 µC are placed on the corners of a equilateral triangle. The length of each side of the equilateral triangle is r = 0.15 m. Recall that μ = 1 x 10-6 and that each of the 3 angles in an equilateral triangle is 60°. 91 93 r r Problem 1: What is the net electric force on 91, due to q2 and 93? a. (1.0 N)ĵ b. (1.5 N)ĵ Problem 2: What is the net electric force on 92, due to 9₁ and 93? +(1.0N)î — (1.7N)Ĵ b. +(1.7N)î - (1.0N)ĵ r c. (2.0 N)Ĵ 92 Problem 3: What is the net electric force on 93, due to q₁ and 92? a. -(1.0N)î - (1.7N)ĵ b. -(1.7N)î - (1.0N)ĵ c. +(2.0N)î - (2.7N)Ĵ c. -(2.0N)î - (2.7N)ĵ d. (2.5 N)ĵ d. +(2.7N)î - (2.0N)Ĵ d. -(2.7N)î - (2.0N)ĵThe figure below shows three small, charged beads at the corners of an equilateral triangle. Bead A has a charge of 1.30 µC; B has a charge of 5.50 µC; and C has a charge of -5.14 µC. Each side of the triangle is 0.500 m long. What are the magnitude and direction of the net electric force on A? (Enter the magnitude in N and the direction in degrees below the +x-axis.) magnitude direction Need Help? y B 60.0⁰ Read It 0.500 m с N ° below the +x-axis
- Given the arrangement of charged particles in the figure below, find the net electrostatic force on the 91 = 5.55-μC charged particle. (Assume q2 = 16.33 µC and 93 = -24.12 μC. Express your answer in vector form.) →> F = N 91 (-2.00 cm, 0) 93 (1.00 cm, 1.00 cm) 92 (0, -1.00 cm) XThree equal charges q = +2.00 nC lie along the x axis with one at the origin and the other two at x = ± 1.00 m, respectively, as shown. Point P is located at z = 1.00 m. P Determine the magnitude of the electric field at point P. Express your answer in N/C, to at least one digit after the decimal point.The figure below shows three small, charged spheres at the corners of an equilateral triangle. Sphere A has a charge of 1.70 µC; B has a charge of 5.60 µC; and C has a charge of -5.10 µC. Each side of the triangle is 0.500 m long. What are the magnitude and direction of the net electric force on A? (Enter the magnitude in N and the direction in degrees below the +x-axis.) y B 0.500 m 60.0° C magnitude direction o below the +x-axis
- Q. 1: Point charges qi=+8.0µC, q2=-2.0µC and q3= +3.0µC are placed at the vertices of a right- angle triangle in vacuum. Calculate the Coulomb force at charge qı due to charges q3 and 92 and express it in vector notations. Show the forces at q1. 93 3.0сm 92 4.0cmThree charged particles are at the corners of an equilateral triangle as shown in the figure below. (Let q = 4.00 µC, and L = 0.750 m.) Three charged particles lie in the x y coordinate plane at the vertices of an equilateral triangle with side length L. Positive charge q is at the origin. A charge of 7.00 µC is in the first quadrant, along a line 60.0° counterclockwise from the positive x-axis. A charge of −4.00 µC is at (L, 0). (a) Calculate the electric field at the position of charge q due to the 7.00-µC and −4.00-µC charges.Once you calculate the magnitude of the field contribution from each charge you need to add these as vectors.kN/C î + You have given the magnitude of the field due to the 7.00-µC charge. What is the y component of this field? kN/C ĵ(b) Use your answer to part (a) to determine the force on charge q.mN î + mN ĵThree charges are arranged as shown in the figure below. Find the magnitude and direction of the electrostatic force on the charge q = 5.28 nC at the origin. (Let r12 = 0.240 m.) Three point charges lie along the axes in the x y-coordinate plane. Positive charge q is at the origin. A charge of 6.00 nC is at (r1 2, 0), where r1 2 > 0. A charge of −3.00 nC is at (0, −0.100 m). magnitude N direction ° counterclockwise from the +x-axis