Locate a point INSIDE the triangle where the electric FIELD is zero? 3 point charges occupy the 3 corners of a equilateral triangle in the illustration. Please explain. Thank you.
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- Each part of as shown two points near two charges. Compare the electric field strengths E1 and E2 at these two points. Is E1 > E2 , E1 = E2 , or E1 < E2?16. Two point charges qA = +10.0 µC and qB = -40.0 µC and a third particle with unknown charge qC are located on the x axis. The particle qA is at the origin, and qB is at x = 12.0 cm. The third particle is to be placed so that each particle is in equilibrium under the action of the electric forces exerted by the other two particles. a) The diagrams below show a positively charged qC in each of the three possible locations with respect to qA and qB. Draw and label vectors (for example, -->F AB) showing the directions of the forces on all three particles, and circle any of the diagrams in which there are opposing forces on all three charges.Three point charges are aligned along the x axis as shown in the figure below. 0.500 m- -0.800 m- -4.00 nC 5.00 nC 3.00 nC Find the electric field at the following position. (Enter your answer as a sum of i-hat and j-hat vectors.) (a) (0, 2.80 m) È = | N/C
- Three small point charges lie on a straight line in vacuum as shown. Find the distance (in m) between the left charge and the middle charge along the line such that the net force acting on the middle charge is zero. 18 μC -4.0 με 9.0 μC 0.13 m O .054 O.076 O .066 O.08410. Three point-like charges are placed at the corners of an equilateral triangle as shown in the figure. Each side of the triangle has a length of 20.0 cm, and the point (C) is located half way between qı and q3 along the side. Find the magnitude of the electric field at point (C). Let q1 = -1.60 µC, q2 = +2.60 µC, and q3 = +5.20 µC. N/C oof19 00 q3 19.0of19.0of19.oof19 oof19.of of19 0of19 0of19 0of19.oof19 oof of19 0of19 oof19 0= A particle with charge 9₁ = +4.7 μC is located at (x=0,y=0). A second particle with charge 92 is located at (x=0,y=4.00 cm), and a third charge 93 = +5.4 µC is located at (x=3.00 cm,y=0). (a) In your notebook, draw a diagram of the three-charge system showing the location of the charges. (b) Calculate the potential energy of this three-charge system. PE = J -8 μC
- Question 4. Three equal positive charges are at the corners of an equilateral triangle of side a as in Figure 4. Assume the three charges together create an electric field. a) Sketch the electric field lines in the plane of the charges. b) Find the location of one point (other than infinity) where the electric field is zero. c) What are the magnitude and the direction of the electric field at P due to the two charges at the base? Figure 4:Three charged marbles, labeled 91, 92, and 93, are oriented such that 92 is between 9₁ and 93. The charge on 92 is -14.8 µC. E field lines (a) 9₁ and 93 have what sign of charge? 91 ---Select--- V 93 ---Select--- V (b) If the magnitude of the charge on q₁ is 8.4 μC, what is the magnitude of charge on 93? uCCharge q₁1.50 nC is at x₁ = 0 and charge 423.00 nC is at x₂ - 2.00 m. At what point between the two charges is the electric field equal to zero? (Enter the x coordinate in m.) HINT x m MacBook Air I
- 1. Two point sources, one with a charge of -3 nC and the other +9 nC, are placed 3m apart as shown below. A third charge is placed at point P, 4 m to the right of the -3nC source. -3nC 3 m 4 m +9 nC *P a) Find the magnitude and direction of the net field at point P. b) Find a location where the net field is zero (if the negative source is at (0,0) what are the coordinates of this point?) Add it to the diagram and label it O. c) Find the approximate field at a test point M that is 1 km (1000 m) to the right of P d) By what factor will the magnitude of the field change if you move M from 1 km to 3 km away? e) Find the magnitude and direction of the force on each of -1pC test charges placed at M, O, and P.2. Two small, neutral conducting spleres are placed on the x-axis at x = −5.0 m and at x = +5.0 m respectively. A negative point charge is placed on the x-axis. What is the direction of the net force on the point charge is it is placed in each of the 4 regions or at the origin? Answer: left, right, or zero for each of the following. Region 1 Region 2 Origin Region 3 Region 4 Region 1 Region 2 Origin Region 3 Region 4 X