Find the direction of the magnetic field acting on the positively charged particle moving in the various situations shown in the figure below if the direction of the magnetic force acting on it is as indicated. ---Select--- ---Select--- Figure (a) Figure (b) Figure (c) ---Select-- V (in) Ô 7 (out) a b

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**Educational Website Transcription:**

---

**Magnetic Force and Direction of the Magnetic Field**

Find the direction of the magnetic field acting on the positively charged particle moving in the various situations shown in the figures below, given the direction of the magnetic force acting on it.

**Instructions for Each Figure:**
- **Figure (a), (b), (c):** Use the dropdown to select the direction of the magnetic field for each scenario.

**Figures:**

- **Figure (a):**
  - A red arrow labeled \(\vec{v}\) points to the right, indicating the velocity of the positively charged particle.
  - A blue arrow labeled \(\vec{F}\) points upwards, indicating the direction of the magnetic force.

- **Figure (b):**
  - A circular symbol with a dot inside represents \(\vec{v} \, (out)\), indicating the velocity of the positively charged particle directed out of the plane.
  - A blue arrow labeled \(\vec{F}\) points upwards, indicating the direction of the magnetic force.

- **Figure (c):**
  - A circular symbol with an X inside represents \(\vec{v} \, (in)\), indicating the velocity of the positively charged particle directed into the plane.
  - A blue arrow labeled \(\vec{F}\) points to the left, indicating the direction of the magnetic force.

To determine the direction of the magnetic field, apply the right-hand rule for each scenario.

--- 

**Note:** Ensure you use a consistent approach, such as the right-hand rule, to deduce the relationships between the given vectors for force, velocity, and magnetic field.
Transcribed Image Text:**Educational Website Transcription:** --- **Magnetic Force and Direction of the Magnetic Field** Find the direction of the magnetic field acting on the positively charged particle moving in the various situations shown in the figures below, given the direction of the magnetic force acting on it. **Instructions for Each Figure:** - **Figure (a), (b), (c):** Use the dropdown to select the direction of the magnetic field for each scenario. **Figures:** - **Figure (a):** - A red arrow labeled \(\vec{v}\) points to the right, indicating the velocity of the positively charged particle. - A blue arrow labeled \(\vec{F}\) points upwards, indicating the direction of the magnetic force. - **Figure (b):** - A circular symbol with a dot inside represents \(\vec{v} \, (out)\), indicating the velocity of the positively charged particle directed out of the plane. - A blue arrow labeled \(\vec{F}\) points upwards, indicating the direction of the magnetic force. - **Figure (c):** - A circular symbol with an X inside represents \(\vec{v} \, (in)\), indicating the velocity of the positively charged particle directed into the plane. - A blue arrow labeled \(\vec{F}\) points to the left, indicating the direction of the magnetic force. To determine the direction of the magnetic field, apply the right-hand rule for each scenario. --- **Note:** Ensure you use a consistent approach, such as the right-hand rule, to deduce the relationships between the given vectors for force, velocity, and magnetic field.
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