Three point charges are arranged as shown in the figure below. 500 300 w 0.100 Need Help? 0.300 w @ (a) Find the vector electric field that the q- 6.00 nC and -3.00 nC charges together create at the origin. N/CI+ N/C) Find the vector force on the 5.00 nC charge. UNI. UNJ Read t
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- Two charges of 3.00x10 C and-1.25×10C are placed at a separation of 20cm. a. Determine where a third charge should be placed on the line connecting the two charges so that it experiences no net force due to these two charges. b. Determine the acceleration of a proton located mid-way between the two charges.R2=.32 2. Two equally charged pith balls are 9.75 cm apart in air and repel each other with a force of 9 x 10-5 N. Compute the charge on each ball.Hi this is a multiple-step problem, please help with what you are able to. Thank you so much. Three charges are placed at the vertices of an equilateral triangle of side a=0.93m, as shown in figure. Charges 1 and 3 are 7.2 μC, charge 2 is -7.2μC. A) Find the magnitude of the net force acting on charge 3. Express answer using two significant figures. F=________ N B) Find the direction of the net force acting on charge 3. Express answer as an integer θ=_____________° counterclockwise from the positive x axis.
- Five identical point charges, each having charge Q, are equally spaced on a semicircle of radius R as shown in the figure. Find the Force (in terms of k, Q, and R) on a charge q located at the center of the semicircle. See attachmentsDirections: Match the conceptual description in Column A with the mathematical description in Column B. Column A Column B 1. Electrostatic force is inversely proportional to the square of the distance between two charges. 2. The magnitude of a positive test charge is inversely proportional to the electric field. F = kqıq2 а. r2 3. Electric field is directly affected by the electrostatic force. b. Ep = k Q r2 4. The electrostatic force between two charges is directly proportional to the product of the magnitude of charges. 5. The electric field at a point is inversely proportional to the square of the distance of the point to the charge. E = F с. qoPositively charged particle O Neutrally charged particle O No enough information is given A negative test charge of 6.4 µC is in an electric field that exerts a force of 3.5x10-4 N to the left on it. What is the magnitude and direction of the electric field at the location of the test charge? * 54.7 N/C to the right 54.7 N/C to the left 0.02 N/C the the left 0.02 N/C to the right What is the magnitude of the electric field of a 6 µC point charge at a location 2 m from it? Given: k= 9x10° N.m²/c? 6x1015 N/C 13500 N/C
- NA 1.75-nC charged particle located at the origin is separated by a distance of 0.0825 m from a 2.88-nC charged particle located farther along the positive x axis. Both particles are held at their locations by an external agent. a. What is the electrostatic force on the 2.88-nC particle? b. What is the electrostatic force on the 1.75-nC particle? 28) NA 1.75-nC charged particle located at the origin is separated by a distance of 0.0825 m from a 2.88-nC charged particle located farther along the positive x axis. If the 1.75-nC particle is kept fixed at the origin, where along the positive x axis should the 2.88-nC particle be located so that the magnitude of the electrostatic force it experiences is twice as great as it was in Problem 27? 35Three point charges are arranged as shown in the figure below. 5.00 C -3.00 w 0:300m 0.100m (a) Find the vector electric field that the q -9.50 nC and -3.00 nC charges together create at the origin. N/CI+ N/Cj Need Help? (b) Find the vector force on the 5.00 nC charge. UNI+ UN Read ItMY NOTES ASK YOUR TEACHER A sphere that is positively charged hangs from a string that is attached to a negatively charged plate. The sphere is experiencing a 380 N electrostatic force and a 13 N/C Eid The string's tension is 8 N. Determine the sphere's mass and the sphere's charge (include polarity). Determine the sphere's mass. m= Determine the the sphere's charge (include polarity). q= MY NOTES ASK YOUR TEACHER
- Three Charges are arranged as shown, 2 meters apart from each other. All charges are 1C in magnitude, with the signs shown. 2 m () 1 C Đ 1 C 3) The magnitude of the net force on the middle charge is a. Zero c. -2.3x10⁹ J d. 1.1x10¹⁰ J e. -6.8x10⁹ J b. 4.5x10⁹ N c. 2.3x10⁹ N d. 2.8x10⁹ N e. 1.7x10⁹ N 4) The potential energy of this arrangement of charges is a. Zero b. 4.5x10⁹ J 2 m 0: -1 CAttached question and diagram.ou Answered rrect Answer Three point charges are arranged as in the figure. Charge q₁ = 1.88 nC is at the origin, 92 = 4.37 nC is at №₂ = 78.6 µm, and q3 = -8.5 nC is at x3 = -90.3 um. Calculate the magnitude (in N) of the net electrostatic force on charge 91. X 29.58 L2 21.2867 margin of error +/- 1%