y FE ►X V Figure 1 Figure 2 At the instant shown in Figure 1, a particle with charge -qis moving with speed e in the +z direction. An electric force is exerted on the particle in the +y direction, as shown in the free-body diagram in Figure 2 In which direction is the acceleration of the particle?
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- Consider Q1 = -11 μC , Q2 = 11 μC , q = 62 μC, and L = 11 cm in the figure: i. Draw the Free body diagram at point of interest (q location) on yourworking paper by using F1 force due to Q1 and F2 force due to Q2?ii. Calculate electric forces F1 and F2 by using Coulomb law? iii. What is the angle between those two forces? iv. Calculate the resultant electric force vector at the location of q ?v. Calculate electric field vector at the location of q ? vi. Calculate the electric potential at the location of q? vii. Calculate the potential energy of the system?Two point charges, Q₁ = -5.0 μC and Q2 = 2.0 μC are located between two oppositely charged parallel plates, as shown in the figure(Figure 1). The two charges are separated by a distance of x = 0.32 m. Assume that the electric field produced by the charged plates is uniform and equal to E = 7.4x104 N/C. Part A Calculate the magnitude of the net electrostatic force on Q1. Express your answer using two significant figures. IVE ΑΣΦ F = Submit Part B Request Answer Give its direction. O to the left O to the right Submit Request Answer ? N2. A third charge, Q3, is added to the other two: Q3 F₁ 3 m Q2 = +3 μC Q1 = +6 μC 4 m A. The electric force on Q₁ is now acting to the upper left, at a 45° to the vertical (as shown above). Calculate the unknown charge Q3. B. Using your answer in part (A), determine the electric force acting on Q2. You may answer in vector component form (i.e. F2 = Fx, Fy) 45°
- Newer automobiles have filters that remove fine particles from exhaust gases. This done by charging the particles and separating them with a strong electric field. Consider a positively charged particle + 1.5uC that enters an electric field with strength 4 x 10^6 N/C. The particle is traveling at 15 m/s and has a mass of 10^-9 g. What is the acceleration of the particle ? (Enter the magnitude only) 2.) what is the direction of the acceleration of the particle relative to the electric field?The diagram at the right shows three charges positioned to form an equilateral triangle. Each side has a length of 46 cm and each charge has a positive charge of 7.8 nC. Determine the magnitude and direction of the net electric force exerted upon the charge at point P at the top of the triangle.In the ever popular game from the future, Electrodisc, players can score double points by pushing a disc into another disc with the electric field generated by a third disc. The discs are by regulation 1 kg. All discs have the same shape and are made of the same conducting material. In the figure below, disc 1 is held in place, and disc 2 is held stationary 4.1 m from disc 1 by a player. The player then releases disc 2. 10 m. F12 What is the initial magnitude of the acceleration imposed on the second disc? The charge on the first disc is 1.7 mC. The charge on the second disc is 1.7 mC. The charge on the third disc is neutral. m/s² Later, discs 2 and 3 touch and charge is exchanged. How much charge is exchanged once the charges on each disc reach an equilibrium? mC After charge is exchanged, what is the direction of the force on disc 3 due to disc 2? O toward the left O toward the right O upward O downward
- A particle of charge Q is located at the origin of a cartesian coordinate system. Find the electric force on a particle of charge Q located at x = 2, y=0. OkQ2/4Newer automobiles have filters that remove fine particles from exhaust gases. This is done by charging the particles and separating them with a strong electric field. Consider a positively charged particle +2.5 µC that enters an electric field with strength 2 x 106 N/C. The particle is traveling at 17 m/s and has a mass of 10-⁹ g. HROO E What is the acceleration of the particle? (Enter the magnitude only.) m/s² What is the direction of the acceleration of the particle relative to the electric field? O It is in the same direction as the electric field. O It is 90° to the left of the electric field. O It is 90° to the right of the electric field. O It is in the opposite direction of the electric field.This applet helps you practice the drawing of a free body diagram for a charge experiencing electric forces fi other charges. Three charges 9₁, 92 and q3 are placed along a staright line as shown below. The charge q2 is placed halfway between q1 and q3 separated by a distance 2d. +4uC +2μC +6μС 91 = +4μC F1-2 F1-2 is the force of q₁ on 92. F3+2 is the force of q3 on q2- In the applet below, select the force vectors on q₂ due to q₁ and 93. Place the tails of the force vectors on 92 For each force, there are four choices, two specifying the directions of the forces and two specifying the magnitudes of the forces. If F1 2 > F3+2, then pick the longer vector for F₁2 and the shorter vector for F3-2, and vice-versa. How will you determine which force is greater? F1-2 d F₁ 2 d F1-2 Select the appropriate directions and relative magnitudes of F1-2 and F3-2 and place their tails on the test charge, 92. 92 = +2 μC X F3-2 93 = +6 μC F3, 12 F3-2 F3-2
- Three charges are placed as shown below: Q1 = Q2 = +5.0 μC andq = -2.0 μC. Draw the free-body diagram (FBD). ii. Determine themagnitude and direction of the net electrostatic force on charge Q2.Two 1.5 kg masses are 1.0 m apart (center to center) on a frictionless table. Each has + 9.6 μC of charge. For general problem-solving tips and strategies for this topic, you may want to view a Video Tutor Solution of Levitation. Part A What is the magnitude of the electric force on one of the masses? Express your answer with the appropriate units. F= Submit Part B Fit for Paredo for Part redo foart A reor Part A keyboard shortcuts for Part A help for Part A Value Request Answer Submit What is the initial acceleration of the mass if it is released and allowed to move? Express your answer with the appropriate units. for Rart for Part.Edo for Part redo folert 8 reor Part B keyboard shortcuts for Part 8 help for Part B Units Value Request Answer Units