power and energy in cycling - cornell universityliepe/webpage/docs/... · power and energy in...
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![Page 1: Power and Energy in Cycling - Cornell Universityliepe/webpage/docs/... · Power and Energy in Cycling Assume P cyclist Drag force velocity (P = Dv) P cyclist = 1/2 C A v2 v =1/2 C](https://reader034.vdocuments.net/reader034/viewer/2022042806/5f6fe9a980e70d59a05d8daf/html5/thumbnails/1.jpg)
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Power and Energy in Cycling
Assume Pcyclist Drag force velocity (P = Dv)
Pcyclist = 1/2 C A v2 v =1/2 C A v3
• Assume C~ 0.4, r = 1.2 kg/m3, A~0.7 m2
• Assume human body ~ 25% efficient in
converting food energy into mechanical energy.
• 1 Cal =4.2 J, 1 food Calorie =1 kCal = 4,200 J
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Prof. Liepe:
v ~ 8 m/s (17 mi/h) P ~ 86 W (~0.12 hp)
Burns ~ 344 W, 1.24 MJ/hour, 295 kCal/hour
Professional distance cyclist:
v ~ 14 m/s (~30 mi/h) P ~ 460 W (~0.6 hp)
Burns ~1.8 kW, 6.6 MJ/hour, 1580 kCal/hour
Professional sprint cyclist:
v ~ 20 m/s (~45 mi/h) P ~ 1340 W (~1.8 hp)
Burns ~ 5.4 kW, 19 MJ/hour, 4600 kCal/hour
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Average daily food energy intake for
Tour de France Cyclists:
~10,000 kCal/ day
(~7 lb of uncooked pasta)
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Today:
• Conservative forces
• Potential energy
• Mechanical energy
• Loop-the-loop
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Which of the following forces are conservative forces?
A. Gravity
B. Spring force
C. Friction
D. two of the above
E. three of the above
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A block of mass m is released from the top of the
frictionless track shown.
What is its speed v at the top of the loop-the-loop?
R h
v = ?
A. 2gh
B. (2gR)1/2
C. [2g(h-R)]1/2
D. [2g(h-2R)]1/2