What occurs when a magnet sits next to a copper circle?

When a magnet is placed next to a copper circle, it essentially does not interact in a way that leads to any noticeable effect such as magnetization or attraction. Copper is a non-magnetic material, meaning it does not have the properties to become magnetized in the presence of a magnetic field.

When the magnet is close to the copper circle, there's no direct interaction that would result in magnetism. Therefore, the copper circle remains unaltered and unchanged by the presence of the magnet. The other options suggest various forms of interaction such as magnetization or attraction, which do not occur with copper and a static magnet.

This scenario highlights the differences between magnetic and non-magnetic materials, effectively demonstrating that while magnets can influence ferromagnetic materials like iron, they do not exert the same effects on non-magnetic substances.