The system shown in the figure below is used to lift an object of mass m = 77.0 kg. A constant downward force of magnitude F is applied to the loose end of the rope such that the hanging object moves upward at constant speed. Neglecting the masses of the rope and pulleys, find the following. T T (a) Find the required value of F. (b) Find the tensions T, Ta, and T,. (T, indicates the tension in the rope which attaches the pulley to the ceiling.) T1 = T2 = T3 = N N (c) Find the work done by the applied force in raising the object a distance of 1.10 m. kJ

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Chapter1: Units, Trigonometry. And Vectors
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The system shown in the figure below is used to lift an object of mass m = 77.0 kg. A constant downward force of magnitude F is applied to the loose end of the rope such that the hanging object moves upward
at constant speed. Neglecting the masses of the rope and pulleys, find the following.
T
T
(a) Find the required value of F.
(b) Find the tensions T,, Ta, and T. (T, indicates the tension in the rope which attaches the pulley to the ceiling.)
T =
T2 =
T3 =
N
N
(c) Find the work done by the applied force in raising the object a distance of 1.10 m.
kJ
Transcribed Image Text:The system shown in the figure below is used to lift an object of mass m = 77.0 kg. A constant downward force of magnitude F is applied to the loose end of the rope such that the hanging object moves upward at constant speed. Neglecting the masses of the rope and pulleys, find the following. T T (a) Find the required value of F. (b) Find the tensions T,, Ta, and T. (T, indicates the tension in the rope which attaches the pulley to the ceiling.) T = T2 = T3 = N N (c) Find the work done by the applied force in raising the object a distance of 1.10 m. kJ
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