Answer:the size-distance relationship of impact debris is a consequence of the energy and velocity of the ejected material, and the dynamics of the impact event itself.
Explanation:The relationship between the size of the ejecta debris and the distance from the impact site is as follows: larger debris tends to be found closer to the impact site, while smaller debris tends to be found farther away.
This relationship can be explained by the physics of the impact event. When a large object, such as an asteroid or comet, strikes the surface of a planet or moon, it generates an enormous amount of energy. This energy is released in the form of a shockwave that propagates through the target material, causing it to be ejected from the impact site.
The largest and most massive fragments of the target material are ejected with the highest velocities and tend to travel the shortest distances before falling back to the surface. These fragments form the "central peak" of the impact crater and are typically composed of rock that was originally located at the deepest levels of the target material.
Smaller fragments, on the other hand, are ejected with lower velocities and tend to travel farther before falling back to the surface. These fragments are often found in a "crater ejecta blanket" that surrounds the central peak and is composed of a mixture of target material and impact melt.