3. A pulley consists of two concentric disks welded together: the first with mass M₁ = 40.0 kg and radii R₁ = 1.20 m, and the second with mass M₂ = 10.0 kg and radii R₂ -0.50 m. A 10 kg mass is looped around the large disk, and a 25 kg mass is looped around the small disk. 1.20 m R₂ = 1.20 m M₂= 40.0 kg Tp = 0.50m mp=10.0kg m₁ = 10.0kg m₂ = 25.0kg a. b. C. 111 10.0kg m2 0.50m 25.0kg Draw the rigid body diagram for this setup. Find the system's moment of inertia, in kg m². Find the angular acceleration for the pulley, in rad/s². Find the linear acceleration for the mass on the left, in m/s².

^{need part C and D only}

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-2 A pulley consists of two concentric disks welded together: the first with mass M₁ = 40.0 kg and radii R₁ = 1.20 m, and the second with mass M, 10.0 kg and radii R₂ = 0.50 m. A 10 kg mass is looped around the large disk, and a 25 kg mass is looped around the small disk. 1.20 m R₂ = 1.20 m M₂= 40.0 kg Tp = 0.50m mp=10.0kg m₁ = 10.0kg m₂ = 25.0 kg a. b. C. d. 111 10.0kg R₁ 1₂ 0.50m 25.0kg Draw the rigid body diagram for this setup. Find the system's moment of inertia, in kg m². Find the angular acceleration for the pulley, in rad/s².. Find the linear acceleration for the mass on the left, in m/s². oc) 31-12-