Use false position method to determine the drag coefficient needed so that a 95-kg bungee jumper has a velocity of 46 m/s after 9 s of free fall. Start with initial guesses of x=0.2 and xu-0.5 and iterate until the approximate relative error fails below 5%. Note: The acceleration of gravity is 9.81 m/s2 (Round the final answer to four decimal places) The required drag coefficient is co kg/m.
Use false position method to determine the drag coefficient needed so that a 95-kg bungee jumper has a velocity of 46 m/s after 9 s of free fall. Start with initial guesses of x=0.2 and xu-0.5 and iterate until the approximate relative error fails below 5%. Note: The acceleration of gravity is 9.81 m/s2 (Round the final answer to four decimal places) The required drag coefficient is co kg/m.
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Transcribed Image Text:Use false position method to determine the drag coefficient needed so that a 95-kg bungee jumper has a velocity of 46 m/s after 9 s
of free fall. Start with initial guesses of x=0.2 and xu-0.5 and iterate until the approximate relative error fails below 5%.
Note: The acceleration of gravity is 9.81 m/s2. (Round the final answer to four decimal places)
The required drag coefficient is co
kg/m.
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