A positively charged object is held in place. You hold an electric field sensor near the charged object. Which of the following would lead to a lower reading on your sensor? You move the sensor away from the charged object. You move the sensor towards the charged object. Someone else increases the charge on the charged object. Someone else decreases the charge on the charged object. You stare intensely at the electric field sensor.

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### Understanding Electric Field Sensors

A positively charged object is held in place. You hold an electric field sensor near the charged object. Which of the following would lead to a lower reading on your sensor?

- [ ] You move the sensor away from the charged object.
- [ ] You move the sensor towards the charged object.
- [ ] Someone else increases the charge on the charged object.
- [ ] Someone else decreases the charge on the charged object.
- [ ] You stare intensely at the electric field sensor.

In this exercise, you will learn about how the position and magnitude of the charge of an object affect the readings on an electric field sensor. This knowledge is crucial for understanding the principles of electric fields in physics.
Transcribed Image Text:### Understanding Electric Field Sensors A positively charged object is held in place. You hold an electric field sensor near the charged object. Which of the following would lead to a lower reading on your sensor? - [ ] You move the sensor away from the charged object. - [ ] You move the sensor towards the charged object. - [ ] Someone else increases the charge on the charged object. - [ ] Someone else decreases the charge on the charged object. - [ ] You stare intensely at the electric field sensor. In this exercise, you will learn about how the position and magnitude of the charge of an object affect the readings on an electric field sensor. This knowledge is crucial for understanding the principles of electric fields in physics.
### Understanding Electric Fields Around Positive Charges

#### Concept Overview

When a positive charge is placed in a region, it creates an electric field around it. The direction of the electric field at any point around a positive charge is away from the charge. This field influences other charges placed in the vicinity.

#### Problem Statement

A positive charge is placed as shown in the diagram. What direction is the electric field two large squares to the right of the charge going to be pointing to?

![Diagram](attachment:image.png)

#### Options:

1. To the left
2. Pointing up
3. Pointing down
4. To the right

#### Explanation of Diagram

The diagram displays a positive charge represented by a red plus sign (+) located at the center of a grid. The grid is divided into large squares.

#### Answering the Question

To determine the direction of the electric field two large squares to the right of the positive charge, consider the properties of electric fields around positive charges:

- The electric field created by a positive charge radiates outward.

Therefore, two large squares to the right of the positive charge, the electric field will be:

- **To the right** (Option 4)

This direction is due to the nature of electric fields around positive charges, which always point away from the charge.
Transcribed Image Text:### Understanding Electric Fields Around Positive Charges #### Concept Overview When a positive charge is placed in a region, it creates an electric field around it. The direction of the electric field at any point around a positive charge is away from the charge. This field influences other charges placed in the vicinity. #### Problem Statement A positive charge is placed as shown in the diagram. What direction is the electric field two large squares to the right of the charge going to be pointing to? ![Diagram](attachment:image.png) #### Options: 1. To the left 2. Pointing up 3. Pointing down 4. To the right #### Explanation of Diagram The diagram displays a positive charge represented by a red plus sign (+) located at the center of a grid. The grid is divided into large squares. #### Answering the Question To determine the direction of the electric field two large squares to the right of the positive charge, consider the properties of electric fields around positive charges: - The electric field created by a positive charge radiates outward. Therefore, two large squares to the right of the positive charge, the electric field will be: - **To the right** (Option 4) This direction is due to the nature of electric fields around positive charges, which always point away from the charge.
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