### Image TranscriptionThe figure shows a right circular cone with a 3,175 N/C uniform electric field perpendicular to its base. Calculate the electric flux magnitude (in N·m²/C) through the cone's *sloping side surface* if the base diameter is 13 cm and the cone's height is 32 cm.### Diagram Explanation- The diagram displays a right circular cone with a vector field \(\vec{E}\) represented by red arrows pointing upwards, indicating the direction of the electric field lines.- Two key parts of the cone are labeled: - **Sloping Side Surface**: The cone's lateral (sloping) surface. - **Circular Base**: The flat, circular base at the bottom of the cone.The electric field lines are shown to be perpendicular to the circular base of the cone.

Answered: Image /qna-images/answer/fc77fd36-0464-4115-a7a2-628e9bc9c7c6.jpg

The figure shows a right circular cone with a 3,175 N/C uniform electric field perpendicular to its base. Calculate the electric flux magnitude (in N-m²/C) through the cone's sloping side surface if the base diameter is 13 cm and the cone's height is 32 cm. E Sloping Side Surface Circular Base

The figure shows a right circular cone with a 3,175 N/C uniform electric field perpendicular to its base. Calculate the electric flux magnitude (in N-m²/C) through the cone's sloping side surface if the base diameter is 13 cm and the cone's height is 32 cm. E Sloping Side Surface Circular Base

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Question

### Image Transcription

The figure shows a right circular cone with a 3,175 N/C uniform electric field perpendicular to its base. Calculate the electric flux magnitude (in N·m²/C) through the cone's *sloping side surface* if the base diameter is 13 cm and the cone's height is 32 cm.

### Diagram Explanation

- The diagram displays a right circular cone with a vector field \(\vec{E}\) represented by red arrows pointing upwards, indicating the direction of the electric field lines.
- Two key parts of the cone are labeled:
- **Sloping Side Surface**: The cone's lateral (sloping) surface.
- **Circular Base**: The flat, circular base at the bottom of the cone.

The electric field lines are shown to be perpendicular to the circular base of the cone.

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