A coil has N turns enclosing an area of A. In a physics laboratory experiment, the coil is rotated during the time interval At from a position in which the plane of each turn is perpendicular to Earth's magnetic field to one in which the plane of each turn is parallel to the field. The magnitude of Earth's magnetic field at the lab location is B. Part A What is the magnitude initial of the magnetic flux through one turn of the coil before it is rotated? • View Available Hint(s) Pinitial- Submit Part B What is the magnitude Prinal of the magnetic flux through one turn of the coil after it is rotated? • View Available Hint(s) |Prinal|- Submit

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### Physics Laboratory Experiment: Magnetic Flux through a Coil **Experiment Setup:** A coil consists of \( N \) turns, enclosing an area \( A \). In this experiment, the coil is rotated over a time interval \( \Delta t \). Initially, the plane of each turn is perpendicular to Earth's magnetic field. The coil is then rotated so that the plane of each turn is parallel to the magnetic field. The magnitude of Earth's magnetic field at the lab location is \( B \). --- **Part A: Initial Magnetic Flux** - **Question:** What is the magnitude \( \Phi_{\text{initial}} \) of the magnetic flux through one turn of the coil before it is rotated? - **Instructions:** Use the information provided about the coil and Earth's magnetic field to calculate the initial magnetic flux before rotation. - **Input Box:** [Provide your answer in the input field] - **Submit Button:** [Submit] --- **Part B: Final Magnetic Flux** - **Question:** What is the magnitude \( \Phi_{\text{final}} \) of the magnetic flux through one turn of the coil after it is rotated? - **Instructions:** Calculate the final magnetic flux after the rotation of the coil using the given parameters. - **Input Box:** [Provide your answer in the input field] - **Submit Button:** [Submit] --- **Educational Tools:** - **View Available Hint(s):** Hints are available to help you understand the concepts and solve the problems related to magnetic flux through a coil. In this exercise, students will gain hands-on experience in calculating and understanding changes in magnetic flux as the orientation of a coil changes relative to a magnetic field.