stretched length l, = 0.8 m, spring constant k = 1 kN/m, unstretched length l, = 50 cm. FRICTIONLESS SLOPE - Asc -Asgi CRATE Pam 20cm 30° Ground Level ROUGH SURFACE Disregard the geometry of the crate and assume that the crate maintains its velocity as it transfers from the frictionless slope to the rough horizontal surface (no tumbling). The 13 kg shipping crate is initially hooked to a stretched spring The crate is released from rest at Position A, which is elevated 20 cm from the ground, after which it initially moves up the incline. The spring completely detaches from (and stops interacting with) the crate once the crate has stopped moving up the incline. a. After the crate comes to a complete stop at Position B, it is pulled horizontally to the right| by a robotic arm with a force of Parm = 60 N. Find the final velocity of the crate after it has traveled As, = 15 m to the right from Position B. Asg = 9 m %3D

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FRICONLESS stretched length l, = 0.8 m, spring constant k = 1 kNím, L unstretched length l, = 50 cm. SLOPE A CRATE - Asci - Asi Pam 20cm 30° BE Ground Level ROUGH SURFACE Disregard the geometry of the crate and assume that the crate maintains its velocity as it transfers from the frictionless slope to the rough horizontal surface (no tumbling). The 13 kg shipping crate is initially hooked to a stretched spring The crate is released from rest at Position A, which is elevated 20 cm from the ground, after which it initially moves up the incline. The spring completely detaches from (and stops interacting with) the crate once the crate has stopped moving up the incline. a. After the crate comes to a complete stop at Position B, it is pulled horizontally to the right by a robotic arm with a force of Pamm = 60 N. Find the final velocity of the crate after it has traveled As, = 15 m to the right from Position B. As; = 9 m