An airplane takes off as shown following a trajectory described by equation y= KX2, where K = 2 x 10-4 ft-1. When x= 1050 ft, the speed of the plane is vo = 110 mph. Using the component system shown, provide the expression for the velocity of the airplane when x = 1050 ft. Express your answer in ft/s. (Round the final answers to four decimal places.) path of A- Vo The expression for the velocity of the airplane is ข = j) ft/s.
An airplane takes off as shown following a trajectory described by equation y= KX2, where K = 2 x 10-4 ft-1. When x= 1050 ft, the speed of the plane is vo = 110 mph. Using the component system shown, provide the expression for the velocity of the airplane when x = 1050 ft. Express your answer in ft/s. (Round the final answers to four decimal places.) path of A- Vo The expression for the velocity of the airplane is ข = j) ft/s.
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
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Transcribed Image Text:An airplane takes off as shown following a trajectory described by equation y= kx², where K = 2 × 10-4 ft-1. When x= 1050 ft, the
speed of the plane is vo = 110 mph. Using the component system shown, provide the expression for the velocity of the airplane when x
= 1050 ft. Express your answer in ft/s. (Round the final answers to four decimal places.)
y
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path of A-
·X
The expression for the velocity of the airplane is
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=
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j) ft/s.
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