Physics 24 Exam 2 March 18, 2014

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Exam Total / 200 Physics 24 Exam 2 March 18, 2014 Printed Name: Rec. Sec. Letter: Five multiple choice questions, 8 points each. Choose the best or most nearly correct answer. 1. You need to store electrical energy with a simple parallel plate capacitor of fixed plate area A 0 and separation d 0. Which of the following configurations stores the most energy? [A] capacitor voltage equals V and dielectric with κ = 3 between the plates [B] capacitor voltage equals 2V and dielectric with κ = 1.5 between the plates [C] capacitor voltage equals 3V and dielectric with κ = 1 between the plates [D] capacitor voltage equals 2V and dielectric with κ = 2 between the plates 2. If the current through an ohmic resistor is doubled, which of the following is true? [A] The power dissipated by the resistor doubles and the resistance doubles. [B] The power dissipated by the resistor quadruples and the resistance doubles. [C] The power dissipated by the resistor doubles and the resistance is unchanged. [D] The power dissipated by the resistor quadruples and the resistance is unchanged. 3. Your car s intermittent windshield wipers are based on an RC timing circuit. It has a fixed capacitor and a variable resistor, and executes one wiper sweep every τ seconds, where τ is the RC time constant. If you want to decrease the time between wiper sweeps you should [A] increase the resistance [B] decrease the resistance. 4. A proton moves through a region of space that has both a uniform electric field and a uniform magnetic field. The direction of the magnetic field is shown in the diagram. In order for the proton to move through this region with a constant velocity, the direction of the electric field must be [A] [B] [C] [D] + v B 5. What would you name the movie that this picture was taken from? [A] Attack of the Flying Dogs [B] Dawn of the Flying Dogs [C] Flight of the Living Dogs [D] Flying Dogs Versus Zombies /40 for page 1

6. (10 points total) A battery has an emf of 12 V and an internal resistance of 2 Ω. You connect an external resistor of resistance R across the terminals of the battery and observe that the total power dissipated in the circuit is 18 W. Find R. 7. (30 points total) An air-filled parallel-plate capacitor consists of two circular plates of radius R 0 and plate separation d 0. It is charged to an initial voltage V 0. (a) (10 points) Calculate the energy U 0 stored in the capacitor in terms of R 0, d 0, V 0, and constants. (b) (20 points) The capacitor is disconnected from the battery. After that, the plates are slowly pulled apart until their distance is 5d 0. Find the work done by the external force that pulled the plates apart. You may express your answer in terms of R 0, d 0, and V 0, and/or the initial energy U 0. /40 for page 2

8. (40 points total) In the circuit shown, a total current of 4A comes out of the battery. The current through resistor R 1 is 2A. The electrical power dissipated by resistor R 1 is 16.0 W. Find R 1, R 2, and the emf ε of the battery. Make sure to clearly draw a box around your three answers. I 1 = 2A R 1 R 2 R 3 = 8 Ω + - I = 4 A ε /40 for page 3

a R 9. (40 points total) In the circuit shown with a resistance R, capacitance C, and voltage source ε, the capacitor is initially uncharged. ε b C (a) (15 points) The switch is set to position a at time t = 0. Derive the expression for the current, I(t), through the resistor R, at time t, in terms of R, C, ε, and t. (b) (15 points) If ε = 10V what is the voltage across the capacitor when t = 2 RC? (c) (10 points) After a long time, the capacitor fully charges to a value of 5 µc. Then the switch is set to position b. What is the charge on the capacitor when the voltage across the capacitor drops to 2V? /40 for page 4

10. (20 points) A beam of positive ions moves in a clockwise orbit with a 10.0 cm radius inside a uniform 0.500 T magnetic field pointing out of the page, as shown in the figure below. The ions have a mass of 6.64x10-27 kg and a speed of 4.82x10 6 m/s. (a) (15 points) What is the charge on each ion? r B (b) (5 points) According to your answer for part (a), how many electrons were removed from each neutral atom to produce an ion? 11. (20 points) A square loop made of a single turn of current-carrying wire is oriented vertically with its top half in a uniform magnetic field and is found to hover in midair. The loop has a total mass m, side length L, and carries a current I. Find the magnitude B of the magnetic field. Express your answer in terms of m, L, I, and any necessary constants. g B L/2 L I /40 for page 5

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