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Current: I1 = 2 A, I2 = 1 A, and I3 = 3 A &  d = 10 cm. 1.Draw representative magnetic field vectors associated with the wire carrying I1 and the wire carrying I3 near the wire carrying I2. What direction does the force on I2 due to I1 point? What direction does the force on I2 due to I3 point? 2. At what distance, x, must we place the wire carrying I2 from I1 such that the net force exerted on I2 is zero? If no such situation is possible argue why that is the case. 3.At what distance, x, must we place the wire carrying I2 from I1 such that the net force exerted on the wire carrying I3 is zero? If no such situation is possible argue why that is the case.

Current: I1 = 2 A, I2 = 1 A, and I3 = 3 A &  d = 10 cm. 1.Draw representative magnetic field vectors associated with the wire carrying I1 and the wire carrying I3 near the wire carrying I2. What direction does the force on I2 due to I1 point? What direction does the force on I2 due to I3 point? 2. At what distance, x, must we place the wire carrying I2 from I1 such that the net force exerted on I2 is zero? If no such situation is possible argue why that is the case. 3.At what distance, x, must we place the wire carrying I2 from I1 such that the net force exerted on the wire carrying I3 is zero? If no such situation is possible argue why that is the case.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Current: I1 = 2 A, I2 = 1 A, and I3 = 3 A &  d = 10 cm.

1.Draw representative magnetic field vectors associated with the wire carrying I1 and the wire carrying I3 near the wire carrying I2. What direction does the force on I2 due to I1 point? What direction does the force on I2 due to I3 point?

2. At what distance, x, must we place the wire carrying I2 from I1 such that the net force exerted on I2 is zero? If no such situation is possible argue why that is the case.

3.At what distance, x, must we place the wire carrying I2 from I1 such that the net force

exerted on the wire carrying I3 is zero? If no such situation is possible argue why that is the case.

4, X d
Transcribed Image Text:4, X d
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