The net electric field in the interior of the conductor is?

To solve the question regarding the net electric field in the interior of a conductor, we can follow these steps: ### Step-by-Step Solution: 1. **Understanding Conductors in Electrostatics**: - In electrostatics, conductors are materials that allow electric charges to move freely. When a conductor is in electrostatic equilibrium, the charges redistribute themselves on the surface of the conductor. **Hint**: Remember that in electrostatics, charges in conductors move until they reach a state of equilibrium. 2. **Electric Field Inside a Conductor**: - When a conductor is in electrostatic equilibrium, the electric field inside the conductor must be zero. This is because if there were an electric field present, the free charges within the conductor would continue to move until they neutralize the field. **Hint**: Think about what happens to free charges in a conductor when an electric field is applied. 3. **Electric Field Lines**: - Electric field lines represent the direction and strength of the electric field. Inside a conductor, these lines cannot penetrate the material. They terminate on the surface of the conductor, indicating that the electric field inside is zero. **Hint**: Visualize electric field lines; they should not pass through the conductor. 4. **Conclusion**: - Since the electric field inside the conductor is zero, the correct answer to the question is that the net electric field in the interior of the conductor is 0. **Hint**: Always summarize your findings clearly to reinforce your understanding. ### Final Answer: The net electric field in the interior of the conductor is **0**.