QUESTION 1 Match the direction of the magnetic force to the cases below. A positive moving to the right in a rightvward field. A. Left B.ON B C None of these D. Right E. Out of page F. Into page G. Downward to bottom of page H. Upward to top of page Positive charge moving upward in a rightward field ALPS A2b.jpg Negative charge moving upward in a rightward field B V Negative charge moving into the page in a rightward field B е vinto paрer Negative charge at rest in a rightward field

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**Diagram 1: Positive Charge Moving to the Right in a Magnetic Field Into the Page**

- **Description**: This diagram illustrates a positive charge moving to the right (\( \vec{v} \)) within a magnetic field (\( \vec{B} \)) that is directed into the page.
- **Magnetic Field Representation**: The field is represented by multiple 'X' marks, indicating that the magnetic field lines are going directly into the page.
- **Positive Charge Movement**: The positive charge (\(+\)) is depicted with an arrow pointing right, demonstrating its velocity.

**Diagram 2: Negative Charge Moving Upward in a Magnetic Field Out of the Page**

- **Description**: This diagram shows a negative charge moving upward (\( \vec{v} \)) in a magnetic field (\( \vec{B} \)) that is directed out of the page.
- **Magnetic Field Representation**: The field is represented by multiple dots, indicating that the magnetic field lines are coming out of the page.
- **Negative Charge Movement**: The negative charge (\( - \)) is depicted with an arrow pointing upward, showing its velocity.

These diagrams are commonly used in physics to demonstrate the interaction of charged particles with magnetic fields, using the right-hand rule and vector notation to indicate direction and movement.
Transcribed Image Text:**Diagram 1: Positive Charge Moving to the Right in a Magnetic Field Into the Page** - **Description**: This diagram illustrates a positive charge moving to the right (\( \vec{v} \)) within a magnetic field (\( \vec{B} \)) that is directed into the page. - **Magnetic Field Representation**: The field is represented by multiple 'X' marks, indicating that the magnetic field lines are going directly into the page. - **Positive Charge Movement**: The positive charge (\(+\)) is depicted with an arrow pointing right, demonstrating its velocity. **Diagram 2: Negative Charge Moving Upward in a Magnetic Field Out of the Page** - **Description**: This diagram shows a negative charge moving upward (\( \vec{v} \)) in a magnetic field (\( \vec{B} \)) that is directed out of the page. - **Magnetic Field Representation**: The field is represented by multiple dots, indicating that the magnetic field lines are coming out of the page. - **Negative Charge Movement**: The negative charge (\( - \)) is depicted with an arrow pointing upward, showing its velocity. These diagrams are commonly used in physics to demonstrate the interaction of charged particles with magnetic fields, using the right-hand rule and vector notation to indicate direction and movement.
**QUESTION 1**

**Match the direction of the magnetic force to the cases below.**

---

1. **A positive charge moving to the right in a rightward field.**

   Diagram: 
   - The diagram shows a positive charge (\( \oplus \)) moving to the right with velocity \( v \). 
   - The magnetic field (\( B \)) is directed to the right, parallel to the velocity vector.

2. **Positive charge moving upward in a rightward field.**

   Diagram:
   - The diagram shows a positive charge (\( \oplus \)) moving upward (\( \uparrow \)) with velocity \( v \). 
   - The magnetic field (\( B \)) is directed to the right.

3. **Negative charge moving upward in a rightward field.**

   Diagram: 
   - The diagram shows a negative charge (\( \ominus \)) moving upward (\( \uparrow \)) with velocity \( v \). 
   - The magnetic field (\( B \)) is directed to the right.

4. **Negative charge moving into the page in a rightward field.**

   Diagram:
   - The diagram shows a negative charge (\( \ominus \)) moving into the page (indicated by “\( v \) into paper”). 
   - The magnetic field (\( B \)) is directed to the right.

5. **Negative charge at rest in a rightward field.**

   Diagram:
   - The diagram implies a negative charge (\( \ominus \)) at rest, with no velocity vector present. 
   - The magnetic field (\( B \)) is directed to the right.

---

**Answer Choices**

A. Left

B. 0 N

C. None of these

D. Right

E. Out of page

F. Into page

G. Downward to bottom of page

H. Upward to top of page
Transcribed Image Text:**QUESTION 1** **Match the direction of the magnetic force to the cases below.** --- 1. **A positive charge moving to the right in a rightward field.** Diagram: - The diagram shows a positive charge (\( \oplus \)) moving to the right with velocity \( v \). - The magnetic field (\( B \)) is directed to the right, parallel to the velocity vector. 2. **Positive charge moving upward in a rightward field.** Diagram: - The diagram shows a positive charge (\( \oplus \)) moving upward (\( \uparrow \)) with velocity \( v \). - The magnetic field (\( B \)) is directed to the right. 3. **Negative charge moving upward in a rightward field.** Diagram: - The diagram shows a negative charge (\( \ominus \)) moving upward (\( \uparrow \)) with velocity \( v \). - The magnetic field (\( B \)) is directed to the right. 4. **Negative charge moving into the page in a rightward field.** Diagram: - The diagram shows a negative charge (\( \ominus \)) moving into the page (indicated by “\( v \) into paper”). - The magnetic field (\( B \)) is directed to the right. 5. **Negative charge at rest in a rightward field.** Diagram: - The diagram implies a negative charge (\( \ominus \)) at rest, with no velocity vector present. - The magnetic field (\( B \)) is directed to the right. --- **Answer Choices** A. Left B. 0 N C. None of these D. Right E. Out of page F. Into page G. Downward to bottom of page H. Upward to top of page
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