WebJan 25, 2005 · One method of producing a great amount of power is a bicycle. The strongest humans can output several horsepower for a while using a bicycle. But this seems limited because it involves primarily the legs without involving other body parts. Another method is the sculling set-up. WebThe formula for the aerodynamic drag acting on a cyclist, in metric units, is: F drag = 0.5⋅Cd⋅A⋅Rho⋅V 2 as F drag = 0.5 ⋅ C d ⋅ A ⋅ Rho ⋅ V a s 2 The total force resisting you, the cyclist, is the sum of these three forces: F resist = F gravity+F rolling +F drag F resist = F gravity + F rolling + F drag
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WebMay 24, 2016 · Average Cyclist: Pro Cyclist: Average Bike Speed on Flat Terrain: 18 mph: 26 mph: Average Bike Speed up an 5% hill: 9.5 mph: 15 mph: Average Bike Speed up … WebFrom what I've read, a pro cyclist will average 200-300 W during a stage of the Tour de France. 300 watts is about 0.4 horsepower (1 horsepower is 745.7 W) 1 [deleted] • 7 … explain limiting reagent
How many (or how much) horsepower can my legs produce on a …
A human traveling on a bicycle at 16–24 km/h (10–15 mph), using only the power required to walk, is the most energy-efficient means of human transport generally available. Air drag, which increases with the square of speed, requires increasingly higher power outputs relative to speed. A bicycle in which the rider lies in a supine position is referred to as a recumbent bicycle or, if covered in an … WebOne HP is 746 watts. The only force in cycling that is easy to figure out is gravity, but I mean only the force you must resist as you climb, or the force that pushes you along … WebApr 12, 2024 · The actual rate is 4.18kJs = 1 calorie, but people range from 20 to 25 percent efficiency. So for every 100 calories burned in exercise, only 20 to 25 calories propel you forward and are measured ... b \u0026 o furniture west hempstead