Geometry Controls Inertial Drag Onset in Granular Impact
Published:Dec 28, 2025 04:53
•1 min read
•ArXiv
Analysis
This paper investigates how the shape of an object impacting granular media influences the onset of inertial drag. It's significant because it moves beyond simply understanding the magnitude of forces and delves into the dynamics of how these forces emerge, specifically highlighting the role of geometry in controlling the transition to inertial behavior. This has implications for understanding and modeling granular impact phenomena.
Key Takeaways
- •Intruder geometry significantly impacts the onset of inertial drag during granular impact.
- •Blunt cones show immediate inertial behavior, while sharper cones delay the transition.
- •A geometry-dependent crossover speed marks the onset of the inertial regime, scaling linearly with the cone angle.
- •Once the inertial regime is established, peak force scales with the cone angle, indicating geometry controls momentum transfer.
Reference
“The emergence of a well-defined inertial response depends sensitively on cone geometry. Blunt cones exhibit quadratic scaling with impact speed over the full range of velocities studied, whereas sharper cones display a delayed transition to inertial behavior at higher speeds.”