The current loop shown in the figure below lies in the plane of the page. The angle given fully specifies the parallelogram pictured. The magnetic field lies in the plane of the page and points up. Determine the net force and the net torque on the loop, if the magnitude of magnetic field is 0.5 T.

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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**Educational Website Text Transcription and Explanation**

The current loop shown in the figure below lies in the plane of the page. The angle given fully specifies the parallelogram pictured. The magnetic field lies in the plane of the page and points up. Determine the net force and the net torque on the loop, if the magnitude of the magnetic field is 0.5 T.

**Diagram Explanation:**

The figure illustrates a parallelogram-shaped current loop situated in the plane of the page. Key features include:

- **Current (I):** The loop carries a current of 10 Amperes.
- **Dimensions:** The horizontal base of the parallelogram measures 10 cm, while the perpendicular height is 8 cm.
- **Angle:** One angle of the parallelogram is given as 60 degrees.
- **Magnetic Field (\(\vec{B}\)):** This is uniform, with a magnitude of 0.5 Tesla, and is directed upwards within the plane of the page.

Arrows are drawn along the sides of the parallelogram to indicate the direction of the current flow.

**Problem Components:**

1. **Net Force:** To be calculated in Newtons (N).
2. **Net Torque:** To be calculated in Newton-meters (N·m).

**Interactive Element:**

A 'Hint' button is provided for user interaction.

**Response Fields:**

- A blank field is available for users to input the magnitude of the net force.
- Another blank field is available for the net torque.

This configuration invites users to explore the principles of electromagnetism, specifically focusing on how current loops interact with magnetic fields to produce force and torque.
Transcribed Image Text:**Educational Website Text Transcription and Explanation** The current loop shown in the figure below lies in the plane of the page. The angle given fully specifies the parallelogram pictured. The magnetic field lies in the plane of the page and points up. Determine the net force and the net torque on the loop, if the magnitude of the magnetic field is 0.5 T. **Diagram Explanation:** The figure illustrates a parallelogram-shaped current loop situated in the plane of the page. Key features include: - **Current (I):** The loop carries a current of 10 Amperes. - **Dimensions:** The horizontal base of the parallelogram measures 10 cm, while the perpendicular height is 8 cm. - **Angle:** One angle of the parallelogram is given as 60 degrees. - **Magnetic Field (\(\vec{B}\)):** This is uniform, with a magnitude of 0.5 Tesla, and is directed upwards within the plane of the page. Arrows are drawn along the sides of the parallelogram to indicate the direction of the current flow. **Problem Components:** 1. **Net Force:** To be calculated in Newtons (N). 2. **Net Torque:** To be calculated in Newton-meters (N·m). **Interactive Element:** A 'Hint' button is provided for user interaction. **Response Fields:** - A blank field is available for users to input the magnitude of the net force. - Another blank field is available for the net torque. This configuration invites users to explore the principles of electromagnetism, specifically focusing on how current loops interact with magnetic fields to produce force and torque.
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