The velocity v of a falling parachutist is given by gm (1-e-(c/m)t) where g = 9.8 m/s2 .For a parachutist with a drag coefficient of c = 15 kg/s, calculate the mass m such that the velocity is v= 35 m/s at t = 9 s. Use the false position method to determine m at a level of es = 0.1%. Graph and take xl and xu with a difference of 0.5. Complete the following table using 6 decimal places. Iteration xl xu xr Ea

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
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The velocity v of a falling parachutist is given by

where g = 9.8  .For a parachutist with a drag coefficient of c = 15 , calculate the mass m such that the velocity is = 35  at . Use the false position method to determine m at a level of = 0.1%.

 

Graph and take  and xu with a difference of 0.5.

 

Complete the following table using 6 decimal places.

The velocity v of a falling parachutist is given by
(1-e-(c/m)t)
where g = 9.8 m/s2 .For a parachutist with a drag coefficient of c = 15 kg/s,
calculate the mass m such that the velocity is v= 35 m/s at t = 9 s. Use the
false position method to determine m at a level of es = 0.1%.
V
gm
Graph and take xl and xu with a difference of 0.5.
Complete the following table using 6 decimal places.
Iteration
xl
xu
xr
Ea
Transcribed Image Text:The velocity v of a falling parachutist is given by (1-e-(c/m)t) where g = 9.8 m/s2 .For a parachutist with a drag coefficient of c = 15 kg/s, calculate the mass m such that the velocity is v= 35 m/s at t = 9 s. Use the false position method to determine m at a level of es = 0.1%. V gm Graph and take xl and xu with a difference of 0.5. Complete the following table using 6 decimal places. Iteration xl xu xr Ea
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