Question

To determine the change in magnetic force given a distance of 3.00 meters and a magnetic force of 11.1 N, we typically need more information about how the magnetic force changes with distance. The magnetic force between two magnets usually follows an inverse square law, meaning that the force is inversely proportional to the square of the distance between them. The formula for the magnetic force (\(F\)) can be expressed as follows when dealing with point magnets:

\[
F = \frac{k \cdot m_1 \cdot m_2}{d^2}
\]

Where:
- \(F\) is the magnetic force,
- \(k\) is a constant that depends on the nature of the magnets,
- \(m_1\) and \(m_2\) are the strengths of the magnets,
- \(d\) is the distance between the magnets.

If you're asking for the change in force, we would need to know the initial and new distances to calculate it.

If you're looking for force at another distance, you could recalculate using a different distance in the formula, but without additional information (like a new distance or the strengths of the magnets), we cannot specify a change in force.

If you are just implying that the distance (3.00 m) remains the same and the force (11.1 N) is constant, then the change in force would be 0 N. If you have new values for either distance or force, please provide them for a more specific calculation.