Direction of induced current produced by motion of a conductor in a magnetic field is given by

To determine the direction of the induced current produced by the motion of a conductor in a magnetic field, we can use Fleming's Right Hand Rule. Here’s a step-by-step solution: ### Step-by-Step Solution: 1. **Understand the Components**: Identify the three components involved in Fleming's Right Hand Rule: - **Thumb**: Represents the direction of the motion of the conductor (the direction in which the conductor is moving). - **Index Finger**: Represents the direction of the magnetic field (the direction of the magnetic lines of force). - **Middle Finger**: Represents the direction of the induced current (the current that is generated in the conductor). 2. **Position Your Hand**: Extend your right hand such that: - Your **thumb** points in the direction of the conductor's motion. - Your **index finger** points in the direction of the magnetic field. 3. **Determine the Direction of Induced Current**: Your **middle finger**, which is perpendicular to both your thumb and index finger, will then point in the direction of the induced current. 4. **Conclusion**: By applying Fleming's Right Hand Rule, you can easily determine the direction of the induced current when a conductor moves through a magnetic field. ### Final Answer: The direction of the induced current produced by the motion of a conductor in a magnetic field is given by **Fleming's Right Hand Rule**. ---