Q4(a)The falling parachutist satisfies the following differential equation:dv= gdt-v,mWhere v is the velocity of the parachutist (m/s), t is time (s), g is gravityacceleration (m/s?), c is drag coefficient (kg/s) and m is the mass of theparachutist. Take g= 9.8067, m as your own weight and c is the last digit ofyour matrix number, If the last digit of your number is zero then take c =10. Estimate the velocity of the parachutist till time t= 2 using the Euler'sand fourth-order Runge-Kutta method with At =1 and vo = 0. Find exactsolution then find the absolute errors for each method. Conclude whichmethod is more accurate?

When we have discussion of mathematics and computational science for solving any ordinary…

The falling parachutist satisfies the following dv dt =g-=v₁ m Where v is the velocity of the parachutist (m acceleration (m/s2), c is drag coefficient (kg/ parachutist. Take g = 9.8067, m as your own w your matrix number, If the last digit of your r 10. Estimate the velocity of the parachutist till and fourth-order Runge-Kutta method with A

The falling parachutist satisfies the following dv dt =g-=v₁ m Where v is the velocity of the parachutist (m acceleration (m/s2), c is drag coefficient (kg/ parachutist. Take g = 9.8067, m as your own w your matrix number, If the last digit of your r 10. Estimate the velocity of the parachutist till and fourth-order Runge-Kutta method with A

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Question

Q4
(a)
The falling parachutist satisfies the following differential equation:
dv
= g
dt
-v,
m
Where v is the velocity of the parachutist (m/s), t is time (s), g is gravity
acceleration (m/s?), c is drag coefficient (kg/s) and m is the mass of the
parachutist. Take g= 9.8067, m as your own weight and c is the last digit of
your matrix number, If the last digit of your number is zero then take c =
10. Estimate the velocity of the parachutist till time t= 2 using the Euler's
and fourth-order Runge-Kutta method with At =1 and vo = 0. Find exact
solution then find the absolute errors for each method. Conclude which
method is more accurate?

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