Can you explain why the answer is E? The pictures showcases the net magnetic flux through the closed surface is most positive in all of the pictures. **Question 3**: For which of the following is the net magnetic flux \( \Phi_B \) through the closed surface \( S \) the most positive? (S is around/near a bar magnet.)- **A)** A diagram shows a bar magnet with the north pole (N) inside the closed surface \( S \), which is an oval shape. - **B)** A diagram shows a bar magnet with the south pole (S) inside the closed surface \( S \), which is an oval shape. - **C)** A diagram shows a bar magnet entirely inside the closed surface \( S \), which is a circular shape. - **D)** A diagram shows a closed surface \( S \), which is an oval shape, with a bar magnet positioned completely outside of it. - **E)** The option states: "The net magnetic fluxes are the same in all cases."**Note**: Each illustration depicts a different configuration of a bar magnet in relation to the closed surface \( S \). These configurations help in determining the net magnetic flux through the surface \( S \), considering that the magnetic field lines originate from the north pole and terminate at the south pole.

Answered: 3) For which the following is the net…

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Can you explain why the answer is E? The pictures showcases the net magnetic flux through the closed surface is most positive in all of the pictures.

**Question 3**: For which of the following is the net magnetic flux \( \Phi_B \) through the closed surface \( S \) the most positive? (S is around/near a bar magnet.)

- **A)** A diagram shows a bar magnet with the north pole (N) inside the closed surface \( S \), which is an oval shape.

- **B)** A diagram shows a bar magnet with the south pole (S) inside the closed surface \( S \), which is an oval shape.

- **C)** A diagram shows a bar magnet entirely inside the closed surface \( S \), which is a circular shape.

- **D)** A diagram shows a closed surface \( S \), which is an oval shape, with a bar magnet positioned completely outside of it.

- **E)** The option states: "The net magnetic fluxes are the same in all cases."

**Note**: Each illustration depicts a different configuration of a bar magnet in relation to the closed surface \( S \). These configurations help in determining the net magnetic flux through the surface \( S \), considering that the magnetic field lines originate from the north pole and terminate at the south pole.

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The number of magnetic field lines passing through a closed surface is called magnetic flux. The magnetic flux provides how much magnetic field passes through that given surface area.

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