This problem refers to diagram 9. A series of "infinite" straight wires, each carrying current / = 475 A in the positive-x direction, fill the x-y plane (the plane of the paper). The z-axis runs out of the page at you. There are n = 585 wires per meter along the x-axis. Find the magnitude of the magnetic field created by the infinite currents at distance z = 4.06 m above the wires (in the z-direction.

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### Diagram 9 Explanation **Overview:** Diagram 9 illustrates a series of parallel cylindrical objects aligned along the x-axis. The diagram also includes a set of arrows indicating flow or movement across these cylinders. **Axes:** - **X-axis:** Positioned horizontally along the length of the cylinders. - **Y-axis:** Vertically oriented and perpendicular to the cylinders. - **Z-axis:** Extends into the plane of the diagram, perpendicular to both the x and y axes. **Details:** - The cylinders are arranged in a horizontal stack. Each cylinder is identical in size and evenly spaced. - Arrows are shown moving in the positive x-direction across the cylinders. These arrows likely represent the direction of a force, current, or fluid flow. - The arrows suggest that the movement across the cylinders is parallel and uniform. This diagram may be used to demonstrate concepts such as fluid dynamics, electromagnetic induction, or airflow across surfaces. Understanding how vectors are distributed in a flow system is crucial for analyzing the behavior of different physical systems.

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This problem refers to diagram 9. A series of "infinite" straight wires, each carrying current \( I = 475 \, \text{A} \) in the positive-x direction, fill the x-y plane (the plane of the paper). The z-axis runs out of the page at you. There are \( n = 585 \) wires per meter along the x-axis. Find the magnitude of the magnetic field created by the infinite currents at distance \( z = 4.06 \, \text{m} \) above the wires (in the z-direction). **HINT:** Use Ampere's law.