Extended-Answer Questions s problem is based on a true story.) In 2016, skydiver
ID: 2030848 • Letter: E
Question
Extended-Answer Questions s problem is based on a true story.) In 2016, skydiver Luke Aikins jumped without a parachute from an airplane at 25000 feet (7600 m) and landed in a giant horizontal net suspended roughly 80 ft (24 m) above the ground. The net, which can be modeled as a spring, stretched by approximately 12 m as it slowed him to a stop. (Assume his mass was 75 kg.) (a) Ignoring air resistance, and assuming that gravity was constant up to his starting height, find his speed just before hitting the net. (b) Determine the spring constant of the net. (c) In reality, air resistance would have limited his fall speed to roughly 120 mi/hr, or 54 m/s (known as "terminal velocity"). Determine the spring constant of the net in this case. (Note that all estimated numbers in this problem are given to only two significant figures.)Explanation / Answer
1) V2 = 2gh
V = sqrt(2*9.8*7600)
V = 385.96m/s
2) Spring Constant K = F/x
K = mass*acceleration/extension in spring
K = 75*9.8/12
K = 61.25 N/m
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