An asymmetric force arising from grit and ice debris migration gives rise to a model of curling stone trajectories that is compatible with observations. There are (almost) no free parameters in this model.
Research Article
A first-principles model of curling stone dynamics
https://doi.org/10.21203/rs.3.rs-1523114/v1
This work is licensed under a CC BY 4.0 License
You are reading this latest preprint version
An asymmetric force arising from grit and ice debris migration gives rise to a model of curling stone trajectories that is compatible with observations. There are (almost) no free parameters in this model.
Reviews received at journal
10 Apr, 2022
Reviewers invited by journal
10 Apr, 2022
Editor assigned by journal
06 Apr, 2022
First submitted to journal
04 Apr, 2022
You are reading this latest preprint version