**Part A**What is the electric flux through the surface shown in (Figure 1)? Assume that \( E = 220 \, \text{N/C} \).Express your answer in newton meters squared per coulomb to two significant figures.\[ \Phi_e = \, \boxed{\quad} \, \text{N} \cdot \text{m}^2/\text{C} \][Submit] [Request Answer]---**Instructions for Completing the Problem:**1. Determine the electric field \( E \) and area \( A \) from the given figure (not shown here).2. Use the formula for electric flux: \( \Phi_e = E \cdot A \).3. Ensure you calculate the perpendicular component of the electric field if necessary.4. Enter your calculated result to two significant figures in the answer box.5. Click "Submit" when you are ready, or "Request Answer" if you need help. The image depicts a flat rectangular surface with dimensions labeled as 15 cm × 15 cm. An electric field, represented by the vector \(\mathbf{E}\), is shown passing through the surface at an angle. The vectors are depicted as pink arrows going diagonally across the surface. The angle between the electric field \(\mathbf{E}\) and the normal vector \(\mathbf{\hat{n}}\) to the surface is given as \(30^\circ\).Detailed Diagram Explanation:- **Surface**: A rectangle labeled as 15 cm × 15 cm.- **Normal Vector (\(\mathbf{\hat{n}}\))**: An arrow perpendicular to the surface, indicating the orientation of the surface.- **Electric Field (\(\mathbf{E}\))**: Illustrated by several parallel pink arrows pointing diagonally through the surface.- **Angle**: The angle between the electric field and the normal to the surface is marked as \(30^\circ\).This diagram is typically used to illustrate concepts related to electric fields and flux in physics, showing how an electric field interacts with a surface at an angle.

Answered: Image /qna-images/answer/53e1adda-3a09-4fcf-95de-010e1ad4d954.jpg

What is the electric flux through the surface shown in (Figure 1)? Assume that E= 220N/C. Express your answer in newton meters squared per coulomb to two significant figures. 15. ΑΣΦ de = Þe е Submit Request Answer ]] ? N-m²/C

What is the electric flux through the surface shown in (Figure 1)? Assume that E= 220N/C. Express your answer in newton meters squared per coulomb to two significant figures. 15. ΑΣΦ de = Þe е Submit Request Answer ]] ? N-m²/C

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Question

**Part A**

What is the electric flux through the surface shown in (Figure 1)? Assume that \( E = 220 \, \text{N/C} \).

Express your answer in newton meters squared per coulomb to two significant figures.

\[ \Phi_e = \, \boxed{\quad} \, \text{N} \cdot \text{m}^2/\text{C} \]

[Submit] [Request Answer]

---

**Instructions for Completing the Problem:**

1. Determine the electric field \( E \) and area \( A \) from the given figure (not shown here).
2. Use the formula for electric flux: \( \Phi_e = E \cdot A \).
3. Ensure you calculate the perpendicular component of the electric field if necessary.
4. Enter your calculated result to two significant figures in the answer box.
5. Click "Submit" when you are ready, or "Request Answer" if you need help.

The image depicts a flat rectangular surface with dimensions labeled as 15 cm × 15 cm. An electric field, represented by the vector \(\mathbf{E}\), is shown passing through the surface at an angle. The vectors are depicted as pink arrows going diagonally across the surface. The angle between the electric field \(\mathbf{E}\) and the normal vector \(\mathbf{\hat{n}}\) to the surface is given as \(30^\circ\).

Detailed Diagram Explanation:

- **Surface**: A rectangle labeled as 15 cm × 15 cm.
- **Normal Vector (\(\mathbf{\hat{n}}\))**: An arrow perpendicular to the surface, indicating the orientation of the surface.
- **Electric Field (\(\mathbf{E}\))**: Illustrated by several parallel pink arrows pointing diagonally through the surface.
- **Angle**: The angle between the electric field and the normal to the surface is marked as \(30^\circ\).

This diagram is typically used to illustrate concepts related to electric fields and flux in physics, showing how an electric field interacts with a surface at an angle.

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