PHYS102 Previous Exam Problems. Electric Fields
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1 PHYS102 Previous Exam Problems CHAPTER 22 Electric Fields Electric field Point charge in an electric field Electric dipole 1. Two identical charges, each of charge Q, are positioned at points A (5.0 m, 0.0 m) and B ( -5.0 m, 0.0 m) to produce a net electric field of E = - 10 ĵ (N/C) at point C (0.0 m, 5.0 m). Find the value of Q. (Ans: -39 nc) 2. The dipole moment of an electric dipole in a 300-N/C electric field is initially perpendicular to the field, but it rotates so that it becomes in the same direction as the field. If the electric dipole moment has a magnitude of C.m, how much work is done by the field? (Ans: J) 3. Two electric charges are arranged as shown in figure 1. If d = 7.2 cm, what is the resultant electric field at P? (Ans: N/C making an angle of 45 o with + x axis) 4. In figure 2, a uniform electric field E = -18 ĵ (N/C) exists between two plates that are 4 cm apart. A proton is fired from the lower plate with a velocity of ĵ (m/s). Find the distance from that plate at which the instantaneous velocity of the proton is zero. [ignore gravity] (Ans: 1.9 cm) 5. An electron with initial velocity î (m/s) enters a region in which the electric field is 400 î (N/C). What is the speed of the electron 2.0 ns after it enters the electric field? (Ans: m/s) 4 6. A uniform electric field has a magnitude of N/C and points to the right. An electron is released from rest in this electric field. How far will the electron travel in two nanoseconds after its release? (Ans: 7.0 mm to the left) 7. A +40-µC charge is positioned on the x axis at x = +4.0 cm. To produce a net electric field of zero at the origin, where should a -60 µc charge be placed? (Ans: x = cm) 8. Three point charges q 1, q 2, and q 3 are fixed at the three corners of a right-angle triangle as shown in figure 4. Given that q 1 = q 2 = C while q 3 = C, and b = 5.0 cm, find the net electric field at point P due to all the three point charges. (Ans: N/C, toward q 3 ) 9. The electric field between two long and parallel charged plates is uniform, and is equal to E = 240 ĵ (N/C). An electron with velocity components v x = m/s and v y = m/s enters the region between these plates. What is the acceleration of the electron when its x coordinate has changed by 2 cm? 13 (Ans: ĵ m/s) 10. Figure 5 shows a charged ball of mass m = 1.0 g that is suspended by a light string in the presence of a uniform electric field, E = î (N/C ). In this field, the ball is in equilibrium at θ = 37 o. What is the charge q on the ball? (Ans: C) Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 1
2 11. A proton is located at the origin and an electron is located on the y axis at y = +1.0 mm. What is the electric dipole moment of these two particles? (Ans: ĵ C.m) 12. A charged particle with a mass of kg is held suspended (stationary) by a downward electric field of 300 N/C. What is the charge on the particle? (Ans: C) 13. In figure 7, two charges q 1 = 5.0 μc, q 2 = 10 μc, are fixed on the x axis. At what distance, measured from q 1, will the electric field be zero? (Ans: 2.4 m to the left of q 1 ) 14. Six point charges are placed on the corners of a regular hexagon, as shown in the figure 9. Five of them have a charge of µc and the sixth has a charge of 1.0 µc. If the distance from the center of the hexagon to its corner is 1 cm, what is the magnitude of the electric field at the center? (Ans: N/C) 15. A uniform electric field is set up between two large charged plates, as shown in figure 10. An electron is released from the negatively charged plate, and at the same time, a proton is released from the positively charged plate. They cross each other at a distance of m from the positively charged plate. If only the field due to the charged plates is considered, find the distance between the two plates. [Take the ratio mass of the electron : mass of the proton = 1 : 1833] (Ans: 9.17 mm) 16. In figure 11, a 0.3-g metallic ball hangs from an insulating string in a vertical electric field of 4000 N/C directed upward as shown. If the tension in the string is N, then what is the charge on the ball? (Ans: µc) 17. A particle (m = 5.0 g, q = 40 mc) moves in a region of space where the electric field is uniform and is given by E = -5.5 î (N/C). If the velocity of the particle at t = 0 is given by v = 50 ĵ (m/s), find the speed of the particle at t = 2 s. (Ans: 101 m/s) 18. In figure 12, what is the magnitude of the electric field at point P, center of the equilateral triangle? [Take d = 2 m, q = 1 nc] (Ans: zero) 19. In figure 13, find the magnitude of the electric field at point R: (0,4) mm due to the two-point charges q (1 µc) and - q placed at points A: (-3, 0) mm and B: (3, 0) mm, respectively. (Ans: N/C) 20. A point charge of 4.0 nc is located at a point having coordinates (30.0 cm, 40.0 cm). At what point will the electric field be 72 N/C and pointing in the negative y direction? (Ans: (30.0, -30.7) cm) 21. Two large metal plates are 10.0 cm apart and have a uniform electric field between them as shown in figure 16. An electron is released from rest from the negative plate at the same time a proton is released from rest from the positive plate. Find the ratio of the distance covered by proton to that of electron when they pass each other. (Ans: ) 22. The electric field 20 mm from a certain point charge has a magnitude E. What is the magnitude of the electric field 10 mm from the point charge? (Ans: 4.0 E ) 23. Figure 17 shows a particle with positive charge +Q and a particle with negative charge Q, both fixed in place. What is the electric field at point P? [Take = 1.00 μc] (Ans: = 432 ĵ N/C) 24. Consider two negative point charges q 1 at (10, 0) cm and q 2 at (0, 20) cm. Find the ratio of the magnitudes of these two point charges q 1 /q 2 so that the electric field at the origin makes an angle = 45º with the +x axis. (Ans: 1/4) 25. A uniform electric field is given by E = 500 î (N/C). What is the net force on a 5.0-μC charge placed at (3.0 m, 4.0 m)? (Ans: 2.5 î mn) Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 2
3 26. A 1.0-nC charged particle is located at the origin. Determine the electric field at the point x = 1.0 m, y = 1.0 m. (Ans: 3.2 ( î + ĵ ) N/C) 27. Two charges lie on the x axis: Q 1 = C is at x = 0.01 m, Q 2 = C is at x = 0.03 m, what is the electric field at the origin? (Ans: N/C along + x axis) 28. An electron is moving along the positive x axis with a constant speed of m/s. When it is at a point m from the origin, an electric field of magnitude N/C and directed along the positive x axis is switched on. At what point will the electron stop momentarily? (Ans: x = 532 m) 29. An electric dipole, of electric charge C and distance m, is in an electric field of strength 1100 N/C. What is the difference in potential energy corresponding to dipole orientations parallel and antiparallel to the field? (Ans: J) 30. Three point charges are fixed on the y axis, as shown in figure 19, with q = +1.0 μc. The net electric field at point P is zero. What is the charge Q? (Ans: µc) 31. An electric dipole consists of two opposite charges, each of magnitude 2.0 nc. A uniform electric field of magnitude 300 N/C makes an angle of 25 with the dipole moment of the dipole. If the torque exerted by the field has a magnitude of N.m, what is the distance between the two charges of the dipole? (Ans: 99 µm) 32. A point charge Q = nc and two unknown point charges, q 1 and q 2, are placed as shown in figure 20. The net electric field at the origin O, due to charges Q, q 1 and q 2, is equal to zero. What are the charges q 1 and q 2, respectively? (Ans: nc, 106 nc) 33. An electric dipole of electric dipole moment p = ( C.m) î is placed in an external electric field given by E = ( N/C) î + ( N/C) ĵ. What is magnitude of the maximum torque experienced by the dipole? (Ans: N.m) 34. An electric dipole consists of two opposite charges, each of magnitude C, separated by a distance d = m. The dipole is placed in a uniform electric field of strength N/C. Calculate the torque exerted on the dipole when the dipole moment is perpendicular to the electric field, as shown in figure 22. (Ans: N.m, into the page) 35. For the arrangement of charges shown in figure 23, what is the electric field at point P? [q = 1.0 μc and d = 50 cm] (Ans: 47 ĵ kv/m) 36. Four point charges are placed at the corners of a square as shown in figure 25.What is the magnitude of the electric field at the center of the square? (Ans: 5.66kq/a 2 ) 37. As shown in figure 27, an electric dipole is placed in a uniform electric field of magnitude E = N/C. The charges are ± C, and are separated by nm. Find the magnitude and direction of the torque. (Ans: N m, out of the page) 38. Two point charges, Q 1 and Q 2, are shown in figure 28. Q 1 = 5.00 μc, and the net electric field at point P is E = î (N/C). Find the charge Q Four charges are placed on the circumference of a circle of radius R = 1.00 m and centered at the origin as shown in figure 30. Find the electric field at the origin. (Ans: ĵ N/C) Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 3
4 40. Two charges, nc and 2.00 nc, are positioned at the coordinates (1.00 m, 0) and (0, 1.00 m) respectively in an isolated space. What is the magnitude and direction of the electric field at the origin? (Ans: 25.5 N/C, from positive x-axis) 41. An electric dipole moment of magnitude p = C.m makes an angle 64 o with a uniform electric field of magnitude E = 46.0 N/C. How much work is required to turn the electric dipole by 90 o? (Ans: J) 42. As shown in figure 33, two parallel plates are 2.0 cm apart and the electric field strength between them is N/C. An electron is launched at 45 from the positive plate with an initial speed v o = m/s. Determine the speed of the electron at the midpoint between the plates. (Ans: m/s) 43. It requires an external agent a work of J to turn an electric dipole 180 o in a uniform electric field if p = C.m, and the initial angle with respect to the electric field direction is 76 o. Find the magnitude of electric filed. (Ans: 90 N/C) 44. A charged particle with mass kg is moving vertically down with acceleration 2.0 m/s 2 under the action of gravity and a downward electric field of 300 N/C. What is the charge on the particle? (Ans: -5.2 µc) 45. A uniform electric field, with a magnitude of 4 N/C, points in the positive x direction. When a charge is placed at the origin, the resulting electric field on the x axis at x = 2 m becomes zero. With the charge still at the origin, what is the magnitude of the electric field at x = +4 m? (Ans: 3 N/C) 46. In figure 38, eight particles form a square in which the distance d = 4.0 cm. The charges are q 1 = -4e, q 2 = -e, q 3 = -5e, q 4 = +2e, q 5 = -4e, q 6 = -e, q 7 = -5e, and q 8 = -e. In unit-vector notation, what is the net electric field at the center of the square?(e is the magnitude of the charge of the electron) (Ans: î N/C) 47. A positively charged sphere of mass 1.00 g falls from rest from a height of 5.00 m, in a uniform electric field of magnitude N/C that is directed vertically downward. The sphere hits the ground with a speed of 20.0 m/s. What is the charge on the sphere? (Ans: 3.02 µc) 48. A charged particle (mass = 5.0 g and charge = 4.9 µc) is shot horizontally with an initial velocity 2.0 î km/s between two plates where the electric field is E = ĵ (N/C), as shown in figure 40. What will be the velocity of the particle after moving for two seconds between the plates? (Ans: 2.0 î km/s) Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 4
5 A B C D E Conceptual Problems 1. Two charges Q 1 and Q 2 of equal magnitudes and opposite signs are positioned as shown in the figure 3. Which of the shown arrows represents correctly the electric field at point P? A. A B. B C. C D. D E. The electric field is zero. 2. A particle, of mass m and charge q, is placed at rest at point A in a uniform electric field E, as shown in figure 6. If the particle is released, then what is the kinetic energy it attains after moving a distance y? 3. In a uniform electric field, which statement is correct? A. All electric field lines are parallel. B. All charged particles experience the same force. C. All charged particles move with the same velocity. D. All electric field lines are directed away from the negative charges. E. All electric field lines are directed towards the positive charges. 4. What is the electric field on the y axis at a distance b from the origin due to two identical positive point charges, each of charge q, located on the x axis one at a distance b and the other a distance b from the origin, as shown in figure 8? A. k q/( b 2 2) in the positive y-direction. B. k q/(b 2 2) in the negative y-direction. C. k q 2 / b 2 in the positive y-direction. D. (k q/ b 2 )/2 in the positive y-direction. E. (k q/ b 2 )/2 in the negative y-direction. 5. In figure 14, four charges are placed on the circumference of a circle of diameter 2 m. If an electron is placed at the center of the circle, then the electron will [Take Q = 60 µc, q = 20 µc] A. stay at the center. B. move to the right. C. move to the left. D. move upward. E. move downward. 6. At which point can the electric field due to the two charges shown in figure 15 be zero? A. point E B. point A C. point B D. point C E. point D Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 5
6 7. Which statement is false? A. Electric field lines extend away from negative charge and toward positive charge. B. Electric fields are vector fields. C. The principle of superposition applies to electric fields as well as to electrostatic forces. D. The electric dipole consists of two charges of the same magnitude but opposite sign. E. When an electric dipole is placed in a uniform electric field, the net force on it is zero. 8. Four electric charges are arranged so that the total electric field at the origin is zero. Which configuration in figure 18 would achieve this? A. configuration 1 B. configuration 2 C. configuration 3 D. configurations 1 and 3 E. configurations 2 and 3 9. In figure 21, four positive charges are fixed on the circumference of a circle of diameter 2.0 m. If an electron is placed at the center of the circle, then the electron will [Take Q = 60 μc, q = 20 μc] A. move South West. B. move North East. C. move toward the West. D. move toward the South. E. stay at the center. 10. Two particles of the same mass carrying charges +3Q and -2Q are shot into a region that contains a uniform electric field as in figure 24. The particles have the same initial velocities in the + x direction. The direction of the electric field is as shown. What will be the resulting paths for the particles? A. path 5 for +3Q and path 2 for -2Q B. path 1 for +3Q and path 4 for -2Q C. path 3 for +3Q and path 2 for -2Q D. path 4 for +3Q and path 3 for -2Q E. path 2 for +3Q and path 5 for -2Q 11. Which one of the following statements is wrong? A. Electric field lines extend away from negative charges and toward positive charges. B. Electric field lines form a vector field. C. The principle of superposition applies to electric fields as well as electrostatic forces. D. The electric dipole consists of two charges having the same magnitude but opposite sign. E. When an electric dipole is placed in a uniform external electric field, the net force on it is zero. 12. Two point charges, q 1 = + 4 μc and q 2 = 2 μc, are fixed on the x axis, as shown in figure 26. Which of the following statements regarding the electric field produced by the two charges on the x axis is correct? A. The electric field points to the right at point 1. B. The electric field points to the right between the two charges. C. The electric field points to the left at point 1. D. The electric field points to the left at point 2. E. The electric filed is zero at the origin. Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 6
7 13. A proton and an electron are released from rest from the same point in a uniform electric field? Which of the following statements is correct? A. They will experience the same magnitude of the electric force. B. They will travel in the same direction. C. They will experience the same acceleration. D. They will travel equal distances in equal times. E. The distance between them will remain constant. 14. Four equal negative point charges are located at the corners of a square centered at the origin, their positions in the xy plane are (1, 1), (-1, 1), (-1, -1), (1, -1). What is the direction of the electric field at (1, 0)? A. along the negative x axis B. along the positive x axis C. along the positive y axis D. along the negative y axis E. along the positive z axis 15. Three electric charges Q A = Q B = q, and Q C = -2q are located at the points A (x = + a, y = 0), B (x = -a, y = 0), and C (x = 0, y = +2a), respectively. What is the electric field at the origin? 16. Which of the following statements is wrong? A. A shell of uniform charge density exerts a constant force on a charge inside it. B. Electric field can exert a torque on an electric dipole. C. Electric field lines extend away from a positive charge. D. A shell of uniform charge density exerts a constant force on a charge outside it. E. The magnitude of the charge on a positive ion is an integer multiple of the electron charge. 17. For the arrangement of charges shown in figure 29, the electric field at the point p is: A. 1.3kq/d 2 in the negative y-direction. B. 2.0kq/d 2 in the negative y-direction. C. Zero. D. 2.0kq/d 2 in the positive y-direction. E. 1.3kq/d 2 in the positive y-direction. 18. The strength of the electric field shown in figure 31 A. increases as we go from point a to point b. B. increases as we go from point b to point a. C. increases as we go from point b to point c. D. increases as we go from point c to point b. E. is the same at points a, b and c. 19. Figure 32 shows 5 possible directions labeled 1, 2, 3, 4, and 5 of the net electric field at point P due to the charges shown. The correct direction of the net electric field at point P is: A. 3 B. 2 C. 1 D. 5 E. 4 Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 7
8 20. What is NOT TRUE about electric field lines: A. They are extended away from a negative point charge. B. They are the path followed by a unit positive charge. C. Two electric field lines never cross each other. D. They are imaginary lines used to visualize the patterns in the electric field. E. The direction of the electric field at a point in the field line is given by the tangent at that point. 21. An electric field exerts a torque on a dipole ONLY IF: A. the field is not parallel to the dipole moment B. the field is parallel to the dipole moment C. the field is perpendicular to the dipole moment D. the field is not perpendicular to the dipole moment E. the field is uniform 22. Four particles, with the same magnitude of charge, are placed at the corners of a square, as shown in figure 34. Which configuration gives an electric field, at the center of the square, pointing to the right? A. 3 B. 1 C. 4 D. 2 E An electron traveling horizontally enters a region where a uniform electric field is directed upward, (see figure 35. What is the direction of the electric force exerted on the electron once it has entered the field? A. downward B. upward C. to the left D. to the right E. out of the page 36. Consider three different electric dipoles placed in the same uniform electric field E, as shown in figure 36, where θ = 60 o. Which of these dipoles has (or have) the LOWEST electric potential energy? A. 2 B. 1 C. 3 D. 1 and 3 E. 2 and Three charged particles are fixed at the corners of a square, as shown in figure 37. Consider point P, which is the top right corner of the square. Which of the indicated arrows represents the direction of the net electric field at point P? A. V B. I C. II D. III E. IV Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 8
9 38. Experimenter A uses a test charge q o and experimenter B uses a test charge -2q o to determine the electric field in a region having a uniform electric field. Experimenter A finds an electric field that is A. Identical to the field found by experimenter B. B. greater in magnitude than the field found by experimenter B. C. less in magnitude than the field found by experimenter B. D. opposite in direction to the field found by experimenter B. E. dependent on the accelerations of the test charges. 39. Figure 39 shows a dipole rotating under the effect of an electric field pointing along the negative x-axis. Which one of the following statements is TRUE? A. The potential energy of the dipole is decreasing. B. The torque on the dipole is directed into of the page. C. The dipole is rotating clockwise. D. The work done on the dipole by the field is negative. E. The dipole will stop when it is pointing parallel to the positive x-axis. Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 9
10 Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 Figure 17 Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 10
11 Figure 18 Figure 19 Figure 20 Figure 21 Figure 22 Figure 23 Figure 24 Figure 25 Figure 26 Figure 27 Figure 28 Figure 29 Figure 30 Figure 31 Figure 32 Figure 33 Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 11
12 Figure 34 Figure 35 Figure 36 Figure 37 Figure 38 Figure 39 Figure 40 Dr. M. F. Al-Kuhaili PHYS 102 Chapter 22 Page 12
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