A coil carrying current behaves like a magnet.

To determine whether the statement "A coil carrying current behaves like a magnet" is true or false, we can follow these steps: ### Step 1: Understand the Concept of Current and Magnetic Fields - A current is the flow of electric charge, typically through a conductor like a wire. When electric current flows through a conductor, it generates a magnetic field around it. ### Step 2: Conduct an Experiment - Imagine a simple experiment where you have a straight conductor (wire) and a compass (or a small magnet). When you place the compass near the wire and allow current to flow through the wire, you will observe that the compass needle deflects. This indicates that a magnetic field is present around the wire. ### Step 3: Analyze the Results - When the current is turned off, and there is no flow of electric charge, the compass needle will return to its original position, indicating that there is no magnetic field generated without current. This shows that the magnetic field is directly related to the flow of current. ### Step 4: Relate to a Coil - Now, if we take a coil (which is essentially a loop of wire) and pass current through it, the magnetic field produced is stronger and more concentrated compared to a straight wire. The coil behaves like a magnet with a north and south pole, depending on the direction of the current. ### Conclusion - Therefore, we can conclude that the statement "A coil carrying current behaves like a magnet" is **true**. The coil indeed generates a magnetic field when current flows through it, behaving like a magnet. ---