An airplane is flying in a horizontal circle at a speed of 481 km/h (see figure below). If its wings are tilted at angle 0= 45.0° to the horizontal, what is the radius of the circle in which the plane is flying? Assume that the required force is provided entirely by an "aerodynamic lift" that is perpendicular to the wing surface. Step 1 Create the free-body diagram. Use the checkboxes to select the correct vectors as instructed above. Move the vectors to the correct starting points and orient them in the correct direction as instructed. Key to Force Labels mg = Gravitational force Static friction mg FL

An airplane is flying in a horizontal circle at a speed of 481 km/h (see figure below). If its wings are tilted at angle 0= 45.0° to the horizontal, what is the radius of the circle in which the plane is flying? Assume that the required force is provided entirely by an "aerodynamic lift" that is perpendicular to the wing surface. Step 1 Create the free-body diagram. Use the checkboxes to select the correct vectors as instructed above. Move the vectors to the correct starting points and orient them in the correct direction as instructed. Key to Force Labels mg = Gravitational force Static friction mg FL

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

I need help with the check boxes please

An airplane is flying in a horizontal circle at a speed of 481 km/h (see figure below). If its wings are tilted at angle 0 = 45.0° to the
horizontal, what is the radius of the circle in which the plane is flying? Assume that the required force is provided entirely by an
"aerodynamic lift" that is perpendicular to the wing surface.
Step 1
Create the free-body diagram.
Use the checkboxes to select the correct vectors as instructed above. Move the vectors
to the correct starting points and orient them in the correct direction as instructed.
Key to Force Labels
mg
FL
mg = Gravitational force
f = Static friction
al force

-/1
Use the checkboxes to select the correct vectors as instructed above. Move the vectors
to the correct starting points and orient them in the correct direction as instructed.
Key to Force Labels
mg = Gravitational force
f; = Static friction
FN = Normal force
T = Tension
FL = Lift
mg
FL
FN
T
Draw free-body diagram here
Point the acceleration vector
in the correct direction

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