Answered: e load L and the corresponding angular…

e load L and the corresponding angular velocity ? and angular acceleration ? of the double pulley. Pulley 1: ? 1 = 0 rad/sec, ? 1 = 0 rad/sec2 Pulley 2: ? 2 = 2 rad/sec, ? 1 = 2 rad/sec

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Please help me answer this Question please show the complete Solution and fbd. The load L is being hoisted by the pulley and cable arrangement shown. Each cable is wrapped securely around its respective pulley so it does not slip. The two pulleys to which L is attached are fastened together to form a single rigid body. Calculate the velocity and acceleration of the load L and the corresponding angular velocity ? and angular acceleration ? of the double pulley. Pulley 1: ? 1 = 0 rad/sec, ? 1 = 0 rad/sec2 Pulley 2: ? 2 = 2 rad/sec, ? 1 = 2 rad/sec

2. The load L is being hoisted by the pulley and cable arrangement
shown. Each cable is wrapped securely around its respective pulley
so it does not slip. The two pulleys to which L is attached are
= 4".
fastened together to form a single rigid body. Calculate the velocity
and acceleration of the load L and the corresponding angular
velocity w and angular acceleration a of the double pulley.
Pulley 1: w 1 = 0 rad/sec, a 1 = 0 rad/sec?
Pulley 2: w 2 = 2 rad/sec, a 1 = 2 rad/sec
@ 2 = 4"
B
4"
8"

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

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