Determine a torque M in N.m, which is applied to the vertical shaft CD shown in the figure.The torque allows the 6 kg gear A to turn freely about CE. Assuming that gear A starts from rest. The angular velocity of CD is 18 rad/s after the gear A has turned three revolutions about the shaft CD. Neglect the mass of shaft CD and axle CE and assume that gear A can be approximated by a thin disk. Gear B is fixed.Determine the magnitude of the angular momentum of the gear A in kg m2/s.Mass moment of inertia of the gear A about Z axis in kg m2.Determine the kinetic energy of the gear A in joule (J).dermine a torque M in N.m, which is applied to the vertical shaft CD.Mass moment of inertia of the gear A about Y axis in kg m2.Mass moment of inertia of the gear A about X axis in kg m2.Determine the magnitude of the angular velocity of the gear A in rad/s.
Determine a torque M in N.m, which is applied to the vertical shaft CD shown in the figure.The torque allows the 6 kg gear A to turn freely about CE. Assuming that gear A starts from rest. The angular velocity of CD is 18 rad/s after the gear A has turned three revolutions about the shaft CD. Neglect the mass of shaft CD and axle CE and assume that gear A can be approximated by a thin disk. Gear B is fixed.Determine the magnitude of the angular momentum of the gear A in kg m2/s.Mass moment of inertia of the gear A about Z axis in kg m2.Determine the kinetic energy of the gear A in joule (J).dermine a torque M in N.m, which is applied to the vertical shaft CD.Mass moment of inertia of the gear A about Y axis in kg m2.Mass moment of inertia of the gear A about X axis in kg m2.Determine the magnitude of the angular velocity of the gear A in rad/s.
Step by step
Solved in 5 steps with 1 images
