1. Two parallel, conducting wires carry oppositely directed currents of 3.00 A and 5.00 A as shown the diagram below. Find the strength of the magnetic field at y = 6.00 cm

    

   
   
    

   	a.	0.59 µT
   	b.	1.67 µT
   	c.	1.1 µT
   	d.	1.4 µT
   	e.	0.72 µT

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**Title: Calculating the Magnetic Field Strength from Parallel Conducting Wires** **Problem Statement:** Two parallel, conducting wires carry oppositely directed currents of 3.00 A and 5.00 A, as shown in the diagram below. Find the strength of the magnetic field at \( y = 6.00 \, \text{cm} \). **Diagram Explanation:** - The diagram features two horizontal lines representing wires. - The top wire is at \( y = 2.0 \, \text{cm} \), carrying a current \( I_1 = 3.0 \, \text{A} \) to the left. - The bottom wire is at \( y = 0.0 \, \text{cm} \), carrying a current \( I_2 = 5.0 \, \text{A} \) to the right. - The y-axis is marked on the left, ranging from \( -4.0 \, \text{cm} \) to \( 6.0 \, \text{cm} \). **Multiple Choice Options:** a. \( 0.59 \, \mu\text{T} \) b. \( 1.67 \, \mu\text{T} \) c. \( 1.1 \, \mu\text{T} \) d. \( 1.4 \, \mu\text{T} \) e. \( 0.72 \, \mu\text{T} \) **Objective:** Calculate the magnetic field strength at the position \( y = 6.00 \, \text{cm} \) using the principle of superposition of magnetic fields from each wire.