How is kinetic energy absorbed when an aircraft engages the textile brake arresting system?

Kinetic energy is absorbed when an aircraft engages the textile brake arresting system primarily through the separation of tearing straps. In this system, the textile materials used in the brake's construction are designed to endure the energy generated during the aircraft's landing. As the aircraft approaches and engages the braking system, kinetic energy is converted into another form primarily through the tearing of these straps. This controlled tearing process dissipates energy effectively, allowing the aircraft to be decelerated safely and efficiently.

This design is particularly beneficial as it ensures that the energy is absorbed gradually, reducing the risk of damage to the aircraft and enhancing safety. The effectiveness of the system lies in its ability to manage the forces exerted during landing, which can be significant, allowing for a more controlled stop.

The other options, while they might involve mechanisms found in different braking systems, do not accurately describe the unique operation of a textile brake arresting system, which relies on the physical tearing action to absorb kinetic energy.