English

Marathon pacing and elevation change

Popular Physics 2012-10-03 v2 Biological Physics

Abstract

An analysis of marathon pacing and elevation change is presented. It is based on an empirical observation of how the pace of elite and non-elite marathon runners change over the course of the marathon and a simple approximation of the energy cost of ascent and decent. It was observed that the pace of the runners slowed in a regular manner that could be broken up into four regions. That observation can be used to project target paces for a desired marathon finish time. However, that estimate fails to take in to account the energetic costs of elevation changes (hills) along the marathon course. Several approximations are made to give a coarse estimate of target paces for marathon run on courses with significant elevation changes, i.e. a hilly course. The 2012 Oakland Marathon course is used as and example of a hilly course and the times of 23 finishers are examined.

Cite

@article{arxiv.1205.0057,
  title  = {Marathon pacing and elevation change},
  author = {J. B. Elliott},
  journal= {arXiv preprint arXiv:1205.0057},
  year   = {2012}
}

Comments

Six pages, seven figures Updated on 1-Oct-12 with better approximation for Eq. (2) and a reference to work supporting that formula

R2 v1 2026-06-21T20:56:55.022Z