The figure above shows a long straight wire near a rectangular current loop. What is the total force on the loop due to the magnetic field produced by the straight wire? 2.06 x 10-4 N, downward 4.12 x 10-4 N, upward 4.12 x 10-4 N, downward 2.06 x 10-4 N, upward

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The figure above shows a long straight wire near a rectangular current loop.  What is the total force on the loop due to the magnetic field produced by the straight wire?

   

2.06 x 10-4 N, downward

   

4.12 x 10-4 N, upward

   

4.12 x 10-4 N, downward

   

2.06 x 10-4 N, upward

The image shows a schematic diagram featuring two parallel current-carrying wires and a rectangular loop of wire. Here are the details:

1. **Current in Parallel Wire:**
   - The top horizontal line represents a straight wire carrying a current, labeled \( I_1 = 15.0 \, \text{A} \).

2. **Rectangular Loop:**
   - Below this wire lies a rectangular loop with the dimensions labeled as 10.0 cm in height and 30.0 cm in width.
   - The current flowing through the loop is labeled \( I_2 = 30.0 \, \text{A} \).

3. **Distances:**
   - The distance between the upper wire and the top of the rectangular loop is 7.50 cm.

This diagram could illustrate concepts such as magnetic fields generated by current-carrying wires and how they interact with each other, a common topic in electromagnetism studies. Understanding the behavior of forces between parallel wires carrying current is crucial for topics like magnetic field effects and electrical circuit design.
Transcribed Image Text:The image shows a schematic diagram featuring two parallel current-carrying wires and a rectangular loop of wire. Here are the details: 1. **Current in Parallel Wire:** - The top horizontal line represents a straight wire carrying a current, labeled \( I_1 = 15.0 \, \text{A} \). 2. **Rectangular Loop:** - Below this wire lies a rectangular loop with the dimensions labeled as 10.0 cm in height and 30.0 cm in width. - The current flowing through the loop is labeled \( I_2 = 30.0 \, \text{A} \). 3. **Distances:** - The distance between the upper wire and the top of the rectangular loop is 7.50 cm. This diagram could illustrate concepts such as magnetic fields generated by current-carrying wires and how they interact with each other, a common topic in electromagnetism studies. Understanding the behavior of forces between parallel wires carrying current is crucial for topics like magnetic field effects and electrical circuit design.
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