Part A The mechanism shown in the figure (Eigure 1is used to raise a crate of supplies from a ship's hold. The crate has total mass 54 kg-A rope is wrapped around a wooden cylinder that turns on a metal axde. The cylinder has radius 0.27 m and a moment of inertia I-25 kg m² about the axle. The crate is suspended from the free end of the rope. One end of the axle pivots on frictionless bearings; a crank handle is attached to the other end. When the crank is turned, the end of the handle rotates about the axde in a vertical circe of radius 0.12 m, the cylinder turns, and the crate is raised. What magnitude of the force F applied tangentially to the rotating crank is required to ralse the crate with an acceleration of 1.40 m/s ? (You can ignore the mass of the rope as well as the moments of inertia of the ade and the crank) Express your answer using two significant figures. VA AEO F= kN Submit Request Answer Next> Provide Feedback Figure 1 of 1 T0.12 m

Transcribed Image Text:

Part A The mechanism shown in the figure (Figure 1)is used to raise a crate of supplies from a ship's hold. The crate has total mass 54 kg.A rope is wrapped around a wooden cylinder that turns on a metal axle. The cylinder has radius 0.27 m and a moment of inertia I = 2.5 kg m² about the axle. The crate is suspended from the free end of the rope. One end of the axle pivots on frictionless bearings; a crank handle is attached to the other end. When the crank is turned, the end of the handle rotates about the axle in a vertical circle of radius 0.12 m , the cylinder turns, and the crate is raised. What magnitude of the force F applied tangentially to the rotating crank is required to raise the crate with an acceleration of 1.40 m/s ? (You can ignore the mass of the rope as well as the moments of inertia of the axle and the crank.) %3D Express your answer using two significant figures. ΑΣφ 1 ? 5HEE F = kN Submit Request Answer Provide Feedback Next> Figure 1 of 1> 0.12 m MacBook Air DD DD. F7 80 000 000 DII F6 F9 F10 F11 F12 F8 F2 F3 F4 F5 &