A proton at point A in (Figure 1) has a speed vo of 1.40 x 10° m/s. Part A Find the magnitude of the magnetic field that will cause the proton to follow the semicircular path from A to B. Express your answer in teslas. B = T Figure < 1 of 1 Vo Part B Find the direction of the magnetic field that will cause the proton to follow the semicircular path from A to В. O into the page A В K- 10.0 cm O out of the page

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### Proton Motion in a Magnetic Field **Given:** A proton at point \( A \) has a speed \( v_0 = 1.40 \times 10^6 \, \text{m/s} \). #### Figure Explanation The figure shows a proton starting at point \( A \), moving in a semicircular path with a radius of 10.0 cm to point \( B \). The initial velocity \( v_0 \) is directed upwards. #### Part A **Objective:** Determine the magnitude of the magnetic field required for the proton to follow the semicircular path from \( A \) to \( B \). **Instructions:** Express your answer in teslas (T). \[ B = \underline{\hspace{2cm}} \, \text{T} \] #### Part B **Objective:** Find the direction of the magnetic field that will ensure the proton follows the semicircular path from \( A \) to \( B \). **Options:** - Into the page - Out of the page **Note:** Use the right-hand rule to determine the magnetic field direction based on the proton’s velocity and path.

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**Part C** Find the time required for the proton to move from \( A \) to \( B \). **Express your answer in seconds.** Input box for time (\( t \)) in seconds is provided below the text with buttons for formatting and input options. - **Box Content:** - **\( t = \)** [Input box] s This section is likely part of a problem-solving exercise where users need to calculate the time based on given conditions or using previous calculations.