An aircraft is moving horizontally on the runway for take-off. It is powered by a sing engine that has rotational inertia Jand that rotates at an angular speed 2. As it approach its take-off speed, it rotates such that its nose (longitudinal axis) points up at an angle 0 the horizontal. In this position, only the two rear wheels (one each on the left and righ sides) are in contact with the ground. Assume a suitable geometry and describe (using vector diagrams) how you would obtain the direction and magnitude of the reaction forces

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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An aircraft is moving horizontally on the runway for take-off. It is powered by a single
engine that has rotational inertia J and that rotates at an angular speed 2. As it approaches
its take-off speed, it rotates such that its nose (longitudinal axis) points up at an angle 0 to
the horizontal. In this position, only the two rear wheels (one each on the left, and right
sides) are in contact with the ground. Assume a suitable geometry and describe (using
vector diagrams) how you would obtain the direction and magnitude of the reaction forces
between the two rear wheels and the ground.
Transcribed Image Text:Question An aircraft is moving horizontally on the runway for take-off. It is powered by a single engine that has rotational inertia J and that rotates at an angular speed 2. As it approaches its take-off speed, it rotates such that its nose (longitudinal axis) points up at an angle 0 to the horizontal. In this position, only the two rear wheels (one each on the left, and right sides) are in contact with the ground. Assume a suitable geometry and describe (using vector diagrams) how you would obtain the direction and magnitude of the reaction forces between the two rear wheels and the ground.
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