Gyroscopes are often used in equipment to stabilize motion and prevent unwanted movements. While the gyroscope itself is stationary, the rotor spins as the spin axis and the gimbal change orientation. This provides a complex rotation vector. The parts of a gyroscope are shown below. P Gyroscope Spine axle Rotor Gimbal Gyroscope frame Base A gyroscope is stationary and has a constant rotation vector of = (0, 18.9, 10.3) rad/s to maintain the balance of sensitive equipment (measured in the Cartesian coordinate system). Assume that a fly lands on the rotor plate at a location of F =(17.5, 0, 35.7) mm. What is the net magnitude of the acceleration vector of the fly at that location as soon as it lands? (Answer in m/s^2)
Gyroscopes are often used in equipment to stabilize motion and prevent unwanted movements. While the gyroscope itself is stationary, the rotor spins as the spin axis and the gimbal change orientation. This provides a complex rotation vector. The parts of a gyroscope are shown below. P Gyroscope Spine axle Rotor Gimbal Gyroscope frame Base A gyroscope is stationary and has a constant rotation vector of = (0, 18.9, 10.3) rad/s to maintain the balance of sensitive equipment (measured in the Cartesian coordinate system). Assume that a fly lands on the rotor plate at a location of F =(17.5, 0, 35.7) mm. What is the net magnitude of the acceleration vector of the fly at that location as soon as it lands? (Answer in m/s^2)
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