The equation for the parachutist's velocity is given by:gm(1-e-c/m)t)C.where t is the time, g is the gravitational constant, c is the drag coefficient, and m is the mass.Use the fixed-point iteration method to determine the drag coefficient c needed for a parachutist70 kg to have a velocity of 50 m/s after freefalling for time t = 10 s. The accelerationof mass m=due to gravity is 9.81 m/s.Note: use the arrangementgmC =(1-e-(c/m)t)Start with c = 3 and find the answer after two iterations.6.803043O 8.926963O This arrangement will diverge-35.42967O8.5373667.348555

We will solve this question using fixed-point iteration scheme.

The equation for the parachutist's velocity is given by: gm (1-e-c/m)t) where t is the time, g is the gravitational constant, c is the drag coefficient, and m is the mass. Use the fixed-point iteration method to determine the drag coefficient c needed for a parachutist of mass m= 70 kg to have a velocity of 50 m/s after freefalling for time t = 10 s. The acceleration due to gravity is 9.81 m/s?. Note: use the arrangement gm (1-e-(c/m)t) C%3D Start with c =3 and find the answer after two iterations. %3D 6.803043 8.926963 O This arrangement will diverge -35.429670 8.537366 7.348555

The equation for the parachutist's velocity is given by: gm (1-e-c/m)t) where t is the time, g is the gravitational constant, c is the drag coefficient, and m is the mass. Use the fixed-point iteration method to determine the drag coefficient c needed for a parachutist of mass m= 70 kg to have a velocity of 50 m/s after freefalling for time t = 10 s. The acceleration due to gravity is 9.81 m/s?. Note: use the arrangement gm (1-e-(c/m)t) C%3D Start with c =3 and find the answer after two iterations. %3D 6.803043 8.926963 O This arrangement will diverge -35.429670 8.537366 7.348555

Functions and Change: A Modeling Approach to College Algebra (MindTap Course List)

6th Edition

ISBN:9781337111348

Author:Bruce Crauder, Benny Evans, Alan Noell

Publisher:Bruce Crauder, Benny Evans, Alan Noell

Chapter2: Graphical And Tabular Analysis

Section2.1: Tables And Trends

Problem 1TU: If a coffee filter is dropped, its velocity after t seconds is given by v(t)=4(10.0003t) feet per...

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Differential Equations

Have you ever observed the movement of the satellites and rockets or how the planets go around the sun in their orbits? How will you determine their motion? Definitely they follow some scientific laws and these kinds of problems are framed as differential equations.

Question

The equation for the parachutist's velocity is given by:
gm
(1-e-c/m)t)
C.
where t is the time, g is the gravitational constant, c is the drag coefficient, and m is the mass.
Use the fixed-point iteration method to determine the drag coefficient c needed for a parachutist
70 kg to have a velocity of 50 m/s after freefalling for time t = 10 s. The acceleration
of mass m=
due to gravity is 9.81 m/s.
Note: use the arrangement
gm
C =
(1-e-(c/m)t)
Start with c = 3 and find the answer after two iterations.
6.803043
O 8.926963
O This arrangement will diverge
-35.42967O
8.537366
7.348555

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