Project Theme 5: Parachutist Free fall can be estimated by the following differential equation: dv dt m equals speed, [m/s] equals falling mass, [kg] equals coefficient of air resistance equals time, [s] Apply the differential equation above and estimate the falling speed as a function of time when a parachutist with total weight of A kg jumps. How fast does the parachutist eventually hit the ground if the parachute does not open? Above, V m C t C + mv (t) = g Also, please present a graph with falling speed as a function of time all the way until the parachutist has roughly reached the terminal velocity. The parachutist has an initial downwards speed of B [m/s]. The coefficient of air resistance is constant at c = CR.
Project Theme 5: Parachutist Free fall can be estimated by the following differential equation: dv dt m equals speed, [m/s] equals falling mass, [kg] equals coefficient of air resistance equals time, [s] Apply the differential equation above and estimate the falling speed as a function of time when a parachutist with total weight of A kg jumps. How fast does the parachutist eventually hit the ground if the parachute does not open? Above, V m C t C + mv (t) = g Also, please present a graph with falling speed as a function of time all the way until the parachutist has roughly reached the terminal velocity. The parachutist has an initial downwards speed of B [m/s]. The coefficient of air resistance is constant at c = CR.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
Related questions
Question
weight = 60
air resistance = 5.5
initial speed = 2.5
![A
H
Project Theme 5: Parachutist
Free fall can be estimated by the following differential equation:
Above,
equals speed, [m/s]
equals falling mass, [kg]
equals coefficient of air resistance
equals time, [s]
Apply the differential equation above and estimate the falling speed as a function of time when a
parachutist with total weight of A kg jumps. How fast does the parachutist eventually hit the ground
if the parachute does not open?
PDF
V
m
C
t
Also, please present a graph with falling speed as a function of time all the way until the parachutist
has roughly reached the terminal velocity.
The parachutist has an initial downwards speed of B [m/s].
The coefficient of air resistance is constant at c = CR.
Student Number
paper1.pdf
♫
dv
dt
Weight
C
+=v(t) = g
m
^
Air resistance
W
Initial sneed
-17°C
FIN
Show
10:00 PE
07/03/20](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2b49e7f7-2c5c-46e7-9733-06586610151a%2F13cd6d0e-932c-48b3-861a-1e599e8ef419%2Fsem6e0d_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A
H
Project Theme 5: Parachutist
Free fall can be estimated by the following differential equation:
Above,
equals speed, [m/s]
equals falling mass, [kg]
equals coefficient of air resistance
equals time, [s]
Apply the differential equation above and estimate the falling speed as a function of time when a
parachutist with total weight of A kg jumps. How fast does the parachutist eventually hit the ground
if the parachute does not open?
PDF
V
m
C
t
Also, please present a graph with falling speed as a function of time all the way until the parachutist
has roughly reached the terminal velocity.
The parachutist has an initial downwards speed of B [m/s].
The coefficient of air resistance is constant at c = CR.
Student Number
paper1.pdf
♫
dv
dt
Weight
C
+=v(t) = g
m
^
Air resistance
W
Initial sneed
-17°C
FIN
Show
10:00 PE
07/03/20
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