The motor exerts a constant force of T (N) on the cable. The final speed of the will define the distance x (m) down the plane that the crate will move, starting from rest. The coefficient of kinetic friction between the plane and the crate is 0.3. The final state is at h = 0 m. 0 (degrees) is the angle between the plane and the horizontal. g = 9.81 m/s². %3D Crate Motor oLONGON

Elements Of Electromagnetics
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The motor exerts a constant force of T (N) on the cable. The final speed of the crate of mass m (kg) is v (m/s). Find the equatlon tidl
will define the distance x (m) down the plane that the crate will move, starting from rest. The coefficient of kinetic friction between
the plane and the crate is 0.3. The final state is at h = 0 m. 0 (degrees) is the angle between the plane and the horizontal. g = 9.81
m/s?.
Crate
Motor
O !mv /(9.81 * m * sind +T - 0.3 * 9.81 * m * cos0) m
O mv / (9.81 * m * sin0 +T+0.3 * 9.81 * m * cos0) m
O mv /(-9.81 * m * sin0 – T + 0.3 * 9.81 * m * cos0) m
O mv /(9.81 * m* cos0 + T – 0.3 * 9.81 * m* sind) m
Clear my choice
Transcribed Image Text:The motor exerts a constant force of T (N) on the cable. The final speed of the crate of mass m (kg) is v (m/s). Find the equatlon tidl will define the distance x (m) down the plane that the crate will move, starting from rest. The coefficient of kinetic friction between the plane and the crate is 0.3. The final state is at h = 0 m. 0 (degrees) is the angle between the plane and the horizontal. g = 9.81 m/s?. Crate Motor O !mv /(9.81 * m * sind +T - 0.3 * 9.81 * m * cos0) m O mv / (9.81 * m * sin0 +T+0.3 * 9.81 * m * cos0) m O mv /(-9.81 * m * sin0 – T + 0.3 * 9.81 * m * cos0) m O mv /(9.81 * m* cos0 + T – 0.3 * 9.81 * m* sind) m Clear my choice
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