. Calculate the electric flux through the surface.

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**Transcription:**

The square surface shown in the figure measures 4.7 mm on each side. It is immersed in a uniform electric field with magnitude \( E = 2300 \, \text{N/C} \) and with field lines at an angle of 35° with a normal to the surface, as shown. Take that normal to be "outward," as though the surface were one face of a box. Calculate the electric flux through the surface.

**Diagram Explanation:**

The diagram depicts a square surface with an indicated normal vector at 90° to the surface. The electric field lines run at a 35° angle to the normal. These field lines are represented by arrows, showing they penetrate the surface at an angle. The normal vector is marked clearly, and the angle \( \theta = 35° \) is shown between the normal and the field lines.

**Input Fields:**

- Number: An input field for the calculated amount of electric flux.
- Units: A dropdown or input field to specify units.
Transcribed Image Text:**Transcription:** The square surface shown in the figure measures 4.7 mm on each side. It is immersed in a uniform electric field with magnitude \( E = 2300 \, \text{N/C} \) and with field lines at an angle of 35° with a normal to the surface, as shown. Take that normal to be "outward," as though the surface were one face of a box. Calculate the electric flux through the surface. **Diagram Explanation:** The diagram depicts a square surface with an indicated normal vector at 90° to the surface. The electric field lines run at a 35° angle to the normal. These field lines are represented by arrows, showing they penetrate the surface at an angle. The normal vector is marked clearly, and the angle \( \theta = 35° \) is shown between the normal and the field lines. **Input Fields:** - Number: An input field for the calculated amount of electric flux. - Units: A dropdown or input field to specify units.
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