The velocity v of a falling parachutist is given by v=(g m/c)(1-e-(c/m)t) where g=9.81 m/s2. For a parachutist with a drag coefficient c=15 kg/s, compute the mass m so that the velocity is v = 36 m/s at t = 10 s. Use the false-position method to determine m to a level of es = 2%. False-position method : xr = xu - f(xu)(xl - xu)/(f(xl) - f(xu))
The velocity v of a falling parachutist is given by v=(g m/c)(1-e-(c/m)t) where g=9.81 m/s2. For a parachutist with a drag coefficient c=15 kg/s, compute the mass m so that the velocity is v = 36 m/s at t = 10 s. Use the false-position method to determine m to a level of es = 2%. False-position method : xr = xu - f(xu)(xl - xu)/(f(xl) - f(xu))
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The velocity v of a falling parachutist is given by v=(g m/c)(1-e-(c/m)t) where g=9.81 m/s2. For a parachutist with a drag coefficient c=15 kg/s, compute the mass m so that the velocity is v = 36 m/s at t = 10 s. Use the false-position method to determine m to a level of es = 2%.
False-position method : xr = xu - f(xu)(xl - xu)/(f(xl) - f(xu))
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