What is the Current in the Left Wire to Create a Zero Magnetic Field at Point C?

AI Thread Summary
To achieve a zero magnetic field at point C, the current I1 in the left wire must be calculated based on the current I2 in the right wire, which is 11.5 A. The distance between the wires is 10.7 cm, with point C located 5.88 cm to the right of the right wire. The correct distance from the left wire to point C is determined to be 16.58 cm. Using the equation I2/R2 = I1/R1, where R2 is 5.88 cm and R1 is 16.58 cm, the calculation shows that I1 equals 32.5 A after correcting unit conversions. The final result indicates that a current of 32.5 A is required in the left wire to create a zero magnetic field at point C.
mlsohani
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Homework Statement



Two straight parallel wires carry currents in opposite directions. The wire on the right carries a current of I2 = 11.5 A. Point A is the midpoint between the wires. The total distance between the wires is d = 10.7 cm. Point C is 5.88 cm to the right of the right wire carrying current I2. Wire on the left carries current I1 and is adjusted so that the magnetic field at C is zero. Calculate the value of the current I1.


Homework Equations



I2/R2 =I1/R1
B=I/R
Know I2< I1

The Attempt at a Solution



I know you have to use the 1st equation as a ratio but I do not know how to find R1.
R2 I believe in just 5.88cm (.0588m)
 
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R1 is the distance from the left wire to point C. You know the distance from the left wire to the right wire, and you know the distance from the right wire to C, so how far is the left wire from C? Draw a picture.
 
The distance would be 16.58 cm = 0.166 m

So plugging that into the proportion equation:

I2/R2=I1/R1

11.5A/.0588m = I1/0.166m
I1= 32.5A


Ok I think I forgot to change the cm to meter the first time!

But thank you for your help!
 

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