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Unformatted text preview: Husain, Zeena Homework 8 Due: Mar 23 2004, 4:00 am Inst: Sonia Paban 1 This print-out should have 19 questions. Multiple-choice questions may continue on the next column or page find all choices before making your selection. The due time is Central time. 001 (part 1 of 1) 10 points A current I = 5 . 54 Amps flows through a wire perpendicular to the paper and towards the reader at A and back in the opposite direction at C . Consider the wires below the plane at A and C to be semi-infinite. In the figure, L 1 = 3 m, R = 3 . 7 m, and L 2 = 3 m and there is an external uniform magnetic field B = 8 . 53 T, which is directed into the paper. Being external, this field is NOT due to the current in the wire. Caution: It may be necessary to take into account the contribution from the long straight wire which runs up to and down from the underneath side of the page. L 1 I I L 2 C A R O B What is the magnitude of the magnetic field at the center of the arc O due to the current in the wire? Correct answer: 2 . 62661 10- 7 T. Explanation: The two straight current segments within the plane of the paper do not contribute to the magnetic field at point O , because they are parallel to the radius vector from that point. Therefore d~s r = 0 on these segments. The contribution from the curved part of the wire is easy to find using the Biot-Savart law B = Z I d~s r 4 r 2 = I 2 4 R = I 8 R (- k ) , but one must not forget to take into account the contribution from the long straight wire which runs into and out of the page. For the wire above this is B 1 = I 4 ( L 1 + R ) , while for the wire below we have B 2 = I 4 ( L 2 + R ) . These three must be added as vectors, giving the magnitude of the field | B O | = " I 8 R 2 + I 4 ( R + L 1 ) 2 + I 4 ( R + L 2 ) 2 # 1 / 2 = (8 . 26866 10- 8 T) 2 +(8 . 26866 10- 8 T) 2 +(2 . 35195 10- 7 T) 2 / 1 2 = 2 . 62661 10- 7 T . 002 (part 1 of 2) 10 points The loop in the figure carries a current 1 . 13 A. The semicircular portion has a radius 5 . 73 cm. A 5 . 7 3 c m 5 . 73cm 2 5 . 73 cm 1 . 13 A Determine the magnitude of the magnetic field at A. Correct answer: 1 . 17733 10- 5 T. Explanation: Let : I = 1 . 13 A , R = 5 . 73 cm Husain, Zeena Homework 8 Due: Mar 23 2004, 4:00 am Inst: Sonia Paban 2 A R R 2R I Basic Concepts: The Biot-Savart Law is given by d ~ B = 4 I d ~ r r 2 . (1) Solution: Note: The distance from a current element on a circle to the center is a constant, namely r , so we can pull this out of the inte- gral. Also, the current element, I d ~ l , is always perpendicular to r , so sin = 1....
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This note was uploaded on 10/13/2009 for the course PHY 303K taught by Professor Turner during the Spring '08 term at University of Texas at Austin.
- Spring '08