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URL:https://www.learndesk.us/class/6031358776311808/lesson/0e4c1294d508f2806253f249d2400b69?ref=outlook-calendar
SUMMARY:UNIT 4
DTSTART;TZID=America/Los_Angeles:20260501T190000
DTEND;TZID=America/Los_Angeles:20260501T200000
LOCATION:https://www.learndesk.us/class/6031358776311808/lesson/0e4c1294d508f2806253f249d2400b69?ref=outlook-calendar
DESCRIPTION: A good understanding of the mechanics of pole vaulting is fundamental to performance due to the complexity of the event, with several factors occurring in sequence and/or parallel. These factors mainly concern the velocities of the vaulter-pole system, the kinetic and potential energy of the vaulter (Figure 1) and the strain energy stored in the pole, the force and torque applied by the athlete, and the pole design. The biomechanical analysis of the 1992 Olympic finals for the men’s pole vault divided the vault into four phases (Figure 2) and defined instants of interest (events) within each phase. The first phase was the run-up, including the touchdown (TD) and take-off (TO) of every support. The second phase was the take-off, which included the last touchdown (TD1), the pole plant (PP), and the last take-off (TO1). The third phase was the pole support with maximum pole bend (MPB), pole straight (PS), and pole release (PR). The last phase was the free flight phase from PR to...

https://www.learndesk.us/class/6031358776311808/lesson/0e4c1294d508f2806253f249d2400b69?ref=outlook-calendar
STATUS:CONFIRMED
SEQUENCE:3
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