**Problem Statement:**You take a conducting wire with a total length of \(10.0 \, m\) and form a square with it. A uniform magnetic field is oriented \(30.0^\circ\) above the plane of the square. If the magnitude of the magnetic field is \(1.20 \, T\), what is the magnetic flux through the square?**Diagram Explanation:**- The image shows a tilted square, representing the plane formed by the conducting wire.- A blue arrow labeled "Uniform \(\vec{B}\) - field" indicates the direction of the magnetic field.- The angle between the arrow (magnetic field) and a line perpendicular to the plane of the square is marked as \(30^\circ\).**Answer Choices:**- \(3.75 \, T \cdot m^2\)- \(6.50 \, T \cdot m^2\)- \(12.0 \, T \cdot m^2\)- None of the other answers.- \(7.50 \, T \cdot m^2\)

Given, the total length of wire is, L=10m the magnetic field is, B=1.2T The angle between the…

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