Figure (a) Fout of page (b) 1 of 1 > Vinto page Part B Determine the magnetic field direction that causes the charged particle shown in the figure (b) to experience the indicated magnetic force. O 45° clockwise from straight up O 45° counterclockwise from straight up O 45° clockwise from straight down O 45° counterclockwise from straight down. O Into the page O Out of the page

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**Magnetic Field Direction Determination** The exercise involves determining the direction of the magnetic field that causes a charged particle to experience a specified magnetic force. The problem is divided into two parts, each focusing on a different scenario shown in Figure 1. ### Figure Description - **Figure (a):** Displays a charged particle with velocity vector \(\vec{v}\) pointing upwards and a force vector \(\vec{F}\) pointing out of the page. - **Figure (b):** Displays a charged particle with velocity vector \(\vec{v}\) into the page and a force vector \(\vec{F}\) pointing to the right. ### Part A Determine the magnetic field direction that causes the charged particle shown in Figure (a) to experience the indicated magnetic force. **Options:** - 45° clockwise from straight up - 45° counterclockwise from straight up - 45° clockwise from straight down - 45° counterclockwise from straight down - Into the page - Out of the page The correct answer is indicated as "Correct." ### Part B Determine the magnetic field direction that causes the charged particle shown in Figure (b) to experience the indicated magnetic force. **Options:** - 45° clockwise from straight up - 45° counterclockwise from straight up - 45° clockwise from straight down - 45° counterclockwise from straight down - Into the page - Out of the page This exercise is designed to help understand the relationship between magnetic fields, velocity, and force as dictated by the right-hand rule.