How is the arresting force calculated when using a "6 foot" energy absorber in fall protection?

The calculation of the arresting force when using a "6 foot" energy absorber in fall protection is grounded in understanding the mechanics of fall arrest systems. Specifically, the correct method involves considering the pull-out distance associated with the energy absorber.

In fall protection, an energy absorber is designed to reduce the peak forces experienced in a fall. The term "pull out distance" refers to the amount of distance the energy absorber will deploy or stretch to help slow down and eventually stop the fall of the user. By indicating that the arresting force is two times the pull out distance, it emphasizes that there is a direct correlation between the energy absorption capacity and the forces exerted during a fall arrest scenario.

This means that during the fall, the energy absorber extends and dissipates energy, which in turn results in lower forces acting on the body. The relationship also reflects the principle of energy conservation in dynamic systems. The doubling aspect pertains to the fact that the forces are not straightforwardly linear, considering factors such as inertia and the dynamics of the falling body.