Starting from rest, an airplane propeller begins to rotate with an angular acceleration a = 0.0500 rad/s2. The propeller radius is 60.0 cm. After exactly 4.00 seconds, calculate the total linear acceleration of the tip of the propeller. (The total linear acceleration is the vector combination of the tangential acceleration and the centripetal acceleration.)

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Starting from rest, an airplane propeller begins to rotate with an angular
acceleration a = 0.0500 rad/s. The propeller radius is 60.0 cm. After exactly 4.00
seconds, calculate the total linear acceleration of the tip of the propeller. (The total
linear acceleration is the vector combination of the tangential acceleration and the
centripetal acceleration.)
Transcribed Image Text:Starting from rest, an airplane propeller begins to rotate with an angular acceleration a = 0.0500 rad/s. The propeller radius is 60.0 cm. After exactly 4.00 seconds, calculate the total linear acceleration of the tip of the propeller. (The total linear acceleration is the vector combination of the tangential acceleration and the centripetal acceleration.)
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