A two-engine jet transport has a loaded weight of 83000 lb and a forward thrust of 8690 lb per engine during takeoff. If the transport requires 5520 ft of level runway starting from rest to become airborne at a speed of 142 knots (1 knot = 1.151 mi/hr), determine the average resistance R to motion over the runway length due to drag (air resistance) and mechanical retardation by the landing gear.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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A two-engine jet transport has a loaded weight of 83000 lb and a forward thrust of 8690 lb per engine during takeoff. If the transport requires 5520 ft of level runway starting from rest to become airborne at a speed of 142 knots (1 knot = 1.151 mi/hr), determine the average resistance R to motion over the runway length due to drag (air resistance) and mechanical retardation by the landing gear.

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Chapter 3, Practice Problem 3/045
A two-engine jet transport has a loaded weight of 83000 lb and a forward thrust of 8690 Ib per engine during takeoff. If the transport requires 5520 ft of level runway starting from rest to become airborne at a speed
of 142 knots (1 knot = 1.151 mi/hr), determine the average resistance R to motion over the runway length due to drag (air resistance) and mechanical retardation by the landing gear.
Answer R =
Ib
the tolerance is +/-2%
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Transcribed Image Text:IS Meriam, Engineering Mechanics: Dynamics, 9e Help | System Announcements PRINTER VERSION ВАСK NEXT Chapter 3, Practice Problem 3/045 A two-engine jet transport has a loaded weight of 83000 lb and a forward thrust of 8690 Ib per engine during takeoff. If the transport requires 5520 ft of level runway starting from rest to become airborne at a speed of 142 knots (1 knot = 1.151 mi/hr), determine the average resistance R to motion over the runway length due to drag (air resistance) and mechanical retardation by the landing gear. Answer R = Ib the tolerance is +/-2% Click if you would like to Show Work for this question: Open Show Work LINK O ΤΕT Question Attempts: Unlimited SAVE FOR LATER SUBMIT ANSWER
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