**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. LeftB. 0 NC. None of theseD. RightE. Out of pageF. Into pageG. Downward to bottom of pageH. Upward to top of page

In this question, we have to find the direction of magnetic force.

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

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

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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