If two objects of different masses experience a force from an interaction, then the of the force will be the same but the will be opposite.

The statement you're referring to is based on Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction.

So, if two objects of different masses experience a force from an interaction, then the magnitude of the force will be the same on both objects, but the direction will be opposite.

Here's a step-by-step explanation:

1. Let's say we have two objects, Object A and Object B. Object A is heavier than Object B.

2. When these two objects interact (for example, if Object A pushes Object B), a force is applied.

3. According to Newton's Third Law, this force will act equally on both objects. This means that the force Object A applies to Object B will be the same as the force that Object B applies to Object A. This is the "equal" part of the law.

4. However, the directions of these forces will be opposite. If Object A pushes Object B to the right, then the force Object B applies to Object A will be to the left. This is the "opposite" part of the law.

5. Therefore, even though the two objects have different masses, the magnitude of the force from the interaction is the same for both, but the direction is opposite.