41. Rotating Balance A narrow stick (uniform density, mass = distance b from one of its ends to an axis rotating with an angular velocity w (see Figure). The stick may freely rotate about the point A in the vertical plane. Find the angle a which the stick will assume with respect to the vertical axis. m) of length a + b is fixed at a point A separated by a a
41. Rotating Balance A narrow stick (uniform density, mass = distance b from one of its ends to an axis rotating with an angular velocity w (see Figure). The stick may freely rotate about the point A in the vertical plane. Find the angle a which the stick will assume with respect to the vertical axis. m) of length a + b is fixed at a point A separated by a a
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![41. Rotating Balance
A narrow stick (uniform density, mass =
distance b from one of its ends to an axis rotating with an angular velocity w (see Figure). The
stick may freely rotate about the point A in the vertical plane. Find the angle a which the stick
will assume with respect to the vertical axis.
m) of length a + b is fixed at a point A separated by a
a](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F253fde62-e5c1-4b53-9331-a29f818781b6%2Fd799bd49-de25-4114-8375-714c52b5f9bd%2F20pdry_processed.jpeg&w=3840&q=75)
Transcribed Image Text:41. Rotating Balance
A narrow stick (uniform density, mass =
distance b from one of its ends to an axis rotating with an angular velocity w (see Figure). The
stick may freely rotate about the point A in the vertical plane. Find the angle a which the stick
will assume with respect to the vertical axis.
m) of length a + b is fixed at a point A separated by a
a
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