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Name Student ID last first Score II. [10 pts total] The following questions are based on your experience in the lab. The questions are not related to each other. Please assume that all batteries are ideal and all bulbs are identical. 13. [3 pts.] Consider Circuit 1 at right. The magnitude of the voltage across the upper network that contains bulbs 1 3 is the magnitude of the voltage across the lower network that contains bulbs 4 8. a. smaller than b. the same as c. greater than d. not comparable to The two networks are connected in series, therefore the same current runs through both networks. The lower network that contains bulbs 4 8 has higher resistance due to the configuration of bulbs when compared to the upper network that contains bulbs 1 3. From Ohm s law (V = IR), the voltage drop across each network is proportional to the resistance of the network. Because the upper network has lower resistance it should also have lower voltage drop across it. The answer is (a). 4 5 6 1 2 Circuit 1 3 7 8 14. [3 pts] Consider Circuit 2 at right. When the switch is open, the voltage across the switch is: a. 0 volts. b. equal in magnitude to the voltage across the battery. c. greater in magnitude than the voltage across the battery. d. infinite magnitude voltage. If you applied Kirchhoff s law to the loop that includes the batter and the bulb, you can conclude that the voltage drop across the bulb and the voltage drop Circuit 2 across the battery must have the same magnitude. If you drew a loop that includes the switch and the battery you can conclude that the voltage drop across battery and the voltage drop across the switch must have the same magnitude. The answer is (b). 15. [4 pts] Consider Circuit 3 at right. When bulb 5 is unscrewed and removed from the socket, bulb 1: a. becomes dimmer. b. remains at the same brightness as it was before bulb 5 was removed. c. becomes brighter. d. does not light because there is an open switch in the system. 1 2 The more branches you have in a parallel network, the lower the resistance of the network, similarly, the fewer branches you have in a parallel network, the higher the resistance. Thus, when you remove bulb 5 from the circuit, the resistance of that network increases. By 3 4 5 increasing the resistance of that particular network, the total current through the circuit must decrease (resistance is an obstacle to current). Circuit 3 If the total current through the circuit decreases, then the current through each individual element also must decrease. If current through each element has decreased then the current through bulb one has decreased and bulb 1 s brightness has become dimmer than it was originally. The answer is (a). Physics 122A, Winter 2013 Exam 2 EM-UWA122A131B-E2(CK1,CK2)_sol.docx

Name Student ID last first Score V. [20 points total] This question consists of two independent parts, A and B. A. A negatively charged point charge is released at point i near a cube with a uniform positive charge distribution. It crosses point f with speed v f. i f i. [4 pts] Consider the system consisting of the point charge alone. Is the total energy of the system increasing, decreasing, or remaining the same? Briefly explain. The point charge starts from rest at point i (zero kinetic energy) and crosses point f with speed v f (positive kinetic energy) so its change in kinetic energy is positive. The system only has one object in it, so there isn t any potential energy in the system. Thus the total energy of the system is increasing. ii. [4 pts] Suppose the cube is moved to the left, closer to points i and f as shown. The point charge is again released at point i. i f Is the magnitude of the electric potential difference between points i and f greater than, less than, or equal to what it was before the cube was moved? Briefly explain. At every point between i and f the point charge is closer to the charges on the cube than before, so the electric force on the point charge is greater. Therefore the work done by the electric field, and the change in potential energy of the system, is greater. Since electric potential difference is the ratio of change in potential energy to test charge, and the test charge hasn t changed, the magnitude of the electric potential difference has increased. B. Test charge A (-1.5 nc) is held at rest 10 cm from the surface of a positively charged insulating sphere that is fixed in place. Charge A is released from rest, and reaches the surface of the sphere with 14 J of kinetic energy. i. [4 pts] During the motion of charge A, does the electric potential energy U E of the system consisting of charge A and the sphere increase, decrease, or remain the same? Briefly explain. ii. There are no external forces acting on the system, so by the work-energy theorem the total energy of the system remains constant. Since the kinetic energy of the test charge is increasing, the potential energy of the system is decreasing. [4 pts] Find the absolute value of the electric potential difference ΔV A between charge A s starting point and the surface of the sphere. ΔV A = ΔU E / q test, and from part i above we know that if ΔK = 14 J, ΔU E = -14 J. Substituting values, we find that ΔV A = 9.33 GV. Test charge B (+2.5 nc) is also initially held at rest 10 cm from the surface of a positively charged sphere identical to the one above. Charge B is moved by a hand at constant velocity to the sphere s surface. iii. [4 pts] Is the magnitude of the electric potential difference between charge B s starting point and the surface of the sphere, ΔV B, greater than, less than, or equal to the magnitude of ΔV A? Briefly explain. As we saw in tutorial, the electric potential difference is independent of test charge, so ΔV B = ΔV A. Whatever change is made to the test charge (in magnitude or sign) will result in an equivalent change in electric potential energy, so the electric potential difference will remain the same. -1.5 nc A +2.5 nc B Physics 122A, Fall 2012 Exam 2 EM-UWA122A131T-E2(EPD)Sol.doc

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