thin conducting wire is bent into the shape shown in the figure. The circular portion of the wire has radius 19.0 cm. The wire is in the plane of the screen and carries a current 1.80 A. What is the magnetic field at the center of the loop? (Give the magnitude in µT and select the direction from the options provided.)     magnitude µT direction

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Chapter1: Units, Trigonometry. And Vectors
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A thin conducting wire is bent into the shape shown in the figure. The circular portion of the wire has radius 19.0 cm. The wire is in the plane of the screen and carries a current 1.80 A. What is the magnetic field at the center of the loop? (Give the magnitude in µT and select the direction from the options provided.)

 

 

magnitude µT

direction

The image depicts a wire shaped into a loop, illustrating the concept of electromagnetism with a simple wire loop. The wire is horizontally aligned and continues beyond the frame on both sides. 

- **Current (I):** An arrow on the left side of the wire indicates the direction of the current flowing through it. The current, labeled as \( I \), flows from left to right.
  
- **Circular Loop:** The wire forms a complete circle in a loop beneath the horizontal section. 

- **Radius (R):** The loop has a central point with an arrow extending to the edge of the circle, representing the radius of the loop. This radius is labeled as \( R \).

This illustration is commonly used to study the magnetic field generated by a current-carrying loop, which is foundational in understanding electromagnetism's principles.
Transcribed Image Text:The image depicts a wire shaped into a loop, illustrating the concept of electromagnetism with a simple wire loop. The wire is horizontally aligned and continues beyond the frame on both sides. - **Current (I):** An arrow on the left side of the wire indicates the direction of the current flowing through it. The current, labeled as \( I \), flows from left to right. - **Circular Loop:** The wire forms a complete circle in a loop beneath the horizontal section. - **Radius (R):** The loop has a central point with an arrow extending to the edge of the circle, representing the radius of the loop. This radius is labeled as \( R \). This illustration is commonly used to study the magnetic field generated by a current-carrying loop, which is foundational in understanding electromagnetism's principles.
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