Physics 2135 Exam 3 November 17, 2015

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Exam Total / 200 Physics 2135 Exam 3 November 17, 2015 Printed Name: ec. Sec. Letter: Five multiple choice questions, 8 points each. Choose the best or most nearly correct answer. 1. An electron is moving with a speed v in the +y direction. What is the direction of the magnetic field due to the electron at point P, a distance from the electron in the +x direction? y z x v - P [A] [B] [C] [] 2. Two long, straight parallel wires carry currents in opposite directions. The current in the upper wire is and the current in the lower wire is 2. The wires are a distance apart. What is the magnetic field at P, located a distance above the upper wire? 2 P µ 0 µ 0 3µ 0 [A], [B], [C], [] zero 3. A square conducting loop of wire is inside a circular conducting loop. At the instant shown, the current in the circular loop is clockwise and increasing. What is the direction of the induced emf in the square loop? [A] [B] [C] [] 4. The wavelength of the electromagnetic waves emitted by a radio transmitter is 500 m. What is the frequency of the waves? [A] 600 khz [B] 6x10 10 Hz [C] 1.67 MHz [] 1.67x10-6 Hz. 5. What is causing the dog to levitate? [A] t has a linear induction motor embedded in its chest. [B] on t you remember, the answer is always magnetism? [C] Little conducting coils in its paws in which eddy currents that oppose the magnetic field of Earth are induced. [] Bacon. smell bacon! Note: no living creatures were harmed during the composition of this problem. /40 for page 1

y solenoid 6. (40 points total) The diagram shows an end view of a long solenoid with radius 2a, carrying a counterclockwise current 0, and having windings with n turns/meter. Wire 1, running along the z-axis, carries a current 1 out of the page (+z direction). Wire 2, running parallel to the z- axis and above it a distance a along the y-axis, carries a current 2 out of the page. The origin of the coordinate system is at the center of the solenoid. Show starting equations. 0 a z 2 1 2a x (a) (15 points) Find the magnetic field at point (0,0,0) due to wire 2 and the solenoid. Express your answer in unit vector notation. (b) (15 points) Find the magnetic field at point (0,a,0) due to wire 1 and the solenoid. Express your answer in unit vector notation. (c) (10 points) Find the magnetic force per unit length on wire 2. /40 for page 2

current 7. (40 points total) A cylindrical conductor of radius carries current as shown in the diagram. The current density J through the cross sectional area of the conductor is given by J(r) = br where b is a constant and r is the radial distance away from the central axis. (a) (5 points) Find the current d that passes through a ring of width dr at radius r<. The diagram below and to the right shows a cross section of the conductor. r dr (b) (5 points) Calculate the current passing through a cross section of radius r< of the cylindrical conductor. Express your answer in terms of b, r, and constants. r (c) (15 points) Use Ampere s law to calculate the magnetic field inside the cylinder (r<). Express your answer in terms of in terms of b, r, and constants. (d) (10 points) Use Ampere s law to calculate the magnetic field outside the cylinder (r>). Express your answer in terms of in terms of b, r,, and constants. (e) (5 points) Which of the three graphs below shows the magnetic field vs. radial distance for this conductor? Circle the correct graph. /40 for page 23

8. (40 points total) A rectangular coil with 200 turns, linear dimensions = 12 cm and H = 8 cm is at rest, exactly half in a region of uniform magnetic field B which points into the page (see picture). The magnitude of the field is decreasing at a constant rate of 0.25 T/s. The total resistance of the coil is 6 Ω. (a) (5 points) What is the direction of the current induced in the coil? (circle one) B H (b) (15 points) Calculate the magnitude of the EMF induced in the coil and the current flowing in the coil. (c) (5 points) What is the direction of the net magnetic force exerted on the coil by the magnetic field (circle one)? (d) (15 points) Calculate magnitude of the magnetic force exerted on the coil by the magnetic field at an instant when the magnitude of the magnetic field is 0.5 T. /40 for page 4

9. Electromagnetic wave calculations (40 points total). (a) (10 points) The power output of the sun is 3.9x10 26 W. Find the intensity of sunlight striking Mars at midday if the distance between the sun and Mars is 2.28x10 11 m. Begin with the appropriate OSE. (b) (15 points) An unknown volume of water is found to require 2340 kj of energy to be totally evaporated. The same volume of water is placed in a cylindrical pan of cross sectional area 0.5m 2 and left outside to evaporate. Assuming that all the energy required for evaporation comes from the sun s radiation, determine the average intensity of the sunlight incident on the water if the water evaporates in two hours. (c) (5 points) An electromagnetic wave emitted by a cell phone has an electric field amplitude of 50 mv/m at a distance of 3.0 m from the phone. What is the magnetic field amplitude at the same point? (d) (10 points) The intensity of sunlight striking the earth at midday is about 1300 W/m 2. Find the force due to the electromagnetic radiation of the sun on a flat totally absorbing roof with area 1200 m 2. /40 for page 5

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