You are asked to analyze a catcher for a small drone. The catcher arm weighs 22 lb and is 8 ft long (you can model it as a slender rod); the net that catches the drone at B has negligible mass. The 3-lb drone has a mass moment of inertia about its own center of mass of 0.01 slug-ft2. Know that after impact the arm swings up to an angle of 30° below the horizontal.

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You are asked to analyze a catcher for a small drone. The catcher arm weighs 22 lb and is 8 ft long (you can model it as a
slender rod); the net that catches the drone at B has negligible mass. The 3-lb drone has a mass moment of inertia about
its own center of mass of 0.01 slug.ft². Know that after impact the arm swings up to an angle of 30° below the horizontal.
The value of Rx
Determine the reaction forces at A when the catcher arm stops.
is
The value of Ris
lb.
OA
|lb.
B
Transcribed Image Text:Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. You are asked to analyze a catcher for a small drone. The catcher arm weighs 22 lb and is 8 ft long (you can model it as a slender rod); the net that catches the drone at B has negligible mass. The 3-lb drone has a mass moment of inertia about its own center of mass of 0.01 slug.ft². Know that after impact the arm swings up to an angle of 30° below the horizontal. The value of Rx Determine the reaction forces at A when the catcher arm stops. is The value of Ris lb. OA |lb. B
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