You bail out of a helicopter and immediately pull the ripcord of your parachute. Your downward velocity satisfies the following initial value problem, with t in seconds and v in ft/sec. Use Euler's method to approximate the solution for 0≤t≤2, first with step size h = 0.01 and then with h=0.005, rounding off approximate values to one decimal place. What percentage of the limiting velocity 16.8 ft/sec has been attained after 1 second? 2 seconds? dv dt =32-1.9v, v(0) = 0 ← Euler's method with h = 0.01 shows that about % of the limiting velocity has been attained after 1 second and about % of the limiting velocity has been attained after 2 seconds. With h = 0.005, the method shows that about % of the limiting velocity has been attained after 1 second and about [ % of the limiting velocity has been attained after 2 seconds. (Round to the nearest whole number as needed.)
You bail out of a helicopter and immediately pull the ripcord of your parachute. Your downward velocity satisfies the following initial value problem, with t in seconds and v in ft/sec. Use Euler's method to approximate the solution for 0≤t≤2, first with step size h = 0.01 and then with h=0.005, rounding off approximate values to one decimal place. What percentage of the limiting velocity 16.8 ft/sec has been attained after 1 second? 2 seconds? dv dt =32-1.9v, v(0) = 0 ← Euler's method with h = 0.01 shows that about % of the limiting velocity has been attained after 1 second and about % of the limiting velocity has been attained after 2 seconds. With h = 0.005, the method shows that about % of the limiting velocity has been attained after 1 second and about [ % of the limiting velocity has been attained after 2 seconds. (Round to the nearest whole number as needed.)
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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