Consider a crossbow that fires a bolt straight upward from the ground with an initial velocity of 56 m/s. Because of linear air resistance with a drag coefficient p=0.04, its velocity function v=dy/dt satisfies the following initial value problem. f(tv)= -0.04v-9.8, v(0)=56 This problem has an exact solution v(t)=301e In Yan-100 Vn-200 25 (a) Use a calculator or computer implementation of the Runge-Kutta method to approximate v(t) for 0 st≤ 10 using both n=100 and n=200 subintervals. (Round to four decimal places as needed) 1 44.1976 -245. Answer parts (a) through (c) below GROCER 2 3 32.8580 21.9631 M 4 11.4953 14380 I 6 8.2250 All 17 5091 OV 8 26 4291
Consider a crossbow that fires a bolt straight upward from the ground with an initial velocity of 56 m/s. Because of linear air resistance with a drag coefficient p=0.04, its velocity function v=dy/dt satisfies the following initial value problem. f(tv)= -0.04v-9.8, v(0)=56 This problem has an exact solution v(t)=301e In Yan-100 Vn-200 25 (a) Use a calculator or computer implementation of the Runge-Kutta method to approximate v(t) for 0 st≤ 10 using both n=100 and n=200 subintervals. (Round to four decimal places as needed) 1 44.1976 -245. Answer parts (a) through (c) below GROCER 2 3 32.8580 21.9631 M 4 11.4953 14380 I 6 8.2250 All 17 5091 OV 8 26 4291
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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Transcribed Image Text:Consider a crossbow that fires a bolt straight upward from the ground with an initial velocity of 56 m/s. Because of
linear air resistance with a drag coefficient p=0.04, its velocity function v=dy/dt satisfies the following initial value
problem.
dv
-=f(tv)= -0.04v-9.8, v(0)=56
dt
This problem has an exact solution v(t) = 301e
Van-100
Vnin 200
(a) Use a calculator or computer implementation of the Runge-Kutta method to approximate v(t) for 0sts 10 using
both n=100 and n=200 subintervals.
(Round to four decimal places as needed.)
1
44. 1976
0
25
2
32 8580
-245. Answer parts (a) through (c) below
3
21.9631
H
GUCCEED
4
11.4953
5
6
1.4380 -8.2250
ALL
7
17.5091
8
26.4291
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