A dipole is held motionless in an electric field as shown in the figure. When the dipole is released, which of the following describes the subsequent motion? P The dipole rotates counterclockwise The dipole rotates clockwise and move more towards right side The dipole rotates counterclockwise and move more towards left side The dipole rotates counterclockwise and move more towards right side O The dipole rotates clockwise The dipole rotates clockwise and move more towards left side

College Physics
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ISBN:9781305952300
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Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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**Educational Content: Understanding Dipole Motion in an Electric Field**

**Question:**
A dipole is held motionless in an electric field as shown in the figure. When the dipole is released, which of the following describes the subsequent motion?

**Diagram Description:**
The diagram shows an electric field represented by a set of curving lines with arrows pointing upward and to the right, indicating the direction of the field (\(\vec{E}\)). A dipole, depicted as a blue arrow (\(\vec{p}\)), is positioned at an angle against these lines. The dipole arrow points from left to right.

**Options:**
- O The dipole rotates counterclockwise
- O The dipole rotates clockwise and moves more towards the right side
- O The dipole rotates counterclockwise and moves more towards the left side
- O The dipole rotates counterclockwise and moves more towards the right side
- O The dipole rotates clockwise
- O The dipole rotates clockwise and moves more towards the left side

**Analysis:**
The dipole, when released, tends to align itself with the electric field lines due to the torque exerted by the field. Consider the orientation and direction of both the electric field and the dipole moment when predicting the motion. 

**Objective:**
Determine the direction of rotation and movement of the dipole once released in the given electric field.
Transcribed Image Text:**Educational Content: Understanding Dipole Motion in an Electric Field** **Question:** A dipole is held motionless in an electric field as shown in the figure. When the dipole is released, which of the following describes the subsequent motion? **Diagram Description:** The diagram shows an electric field represented by a set of curving lines with arrows pointing upward and to the right, indicating the direction of the field (\(\vec{E}\)). A dipole, depicted as a blue arrow (\(\vec{p}\)), is positioned at an angle against these lines. The dipole arrow points from left to right. **Options:** - O The dipole rotates counterclockwise - O The dipole rotates clockwise and moves more towards the right side - O The dipole rotates counterclockwise and moves more towards the left side - O The dipole rotates counterclockwise and moves more towards the right side - O The dipole rotates clockwise - O The dipole rotates clockwise and moves more towards the left side **Analysis:** The dipole, when released, tends to align itself with the electric field lines due to the torque exerted by the field. Consider the orientation and direction of both the electric field and the dipole moment when predicting the motion. **Objective:** Determine the direction of rotation and movement of the dipole once released in the given electric field.
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