The pulley below has a mechanical advantage of 3 and has a load of 300N assume an ideal pulley without friction losses, determine the following: a) what input force (input) do you apply to lift the load of 300 N? B) what is the tension in the 3 lines of the ropes of the pulley on the output side with the load as illustrated in the diagram? C) if the load is lifted to a height of 12 cm, how much rope is pulled on the input side d (in) in the diagram? D) how much work in joules (j) is required to lift the 300 N load 12 cm (0.12m)? E) how much power in watts (w) is required to lift the 300N load a distance of 0.12m in 20 seconds. INTensiondinF300NLoadh=12cm 2. The pulley below has a Mechanical Advantage of 3 and has a load of300 N. Assume an ideal pulley without friction losses, Determine thefollowing: a) What input force F(input) do you apply to lift the load of 300N? b) What is the tension in the 3 lines of the ropes of the pulley on theOutput side with the load as illustrated in the diagram? c) If the load islifted to a height of 12 cm, how much rope is pulled on the input side d(in) in the diagram? d) How much work in joules (J) is required to lift the300 N load 12 cm (0.12 m)? e) How much Power in Watts (W) is requiredto lift the 30ON load a distance of 0.12 m in 20 seconds.

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Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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The pulley below has a mechanical advantage of 3 and has a load of 300N assume an ideal pulley without friction losses, determine the following: a) what input force (input) do you apply to lift the load of 300 N? B) what is the tension in the 3 lines of the ropes of the pulley on the output side with the load as illustrated in the diagram? C) if the load is lifted to a height of 12 cm, how much rope is pulled on the input side d (in) in the diagram? D) how much work in joules (j) is required to lift the 300 N load 12 cm (0.12m)? E) how much power in watts (w) is required to lift the 300N load a distance of 0.12m in 20 seconds.

2. The pulley below has a Mechanical Advantage of 3 and has a load of
300 N. Assume an ideal pulley without friction losses, Determine the
following: a) What input force F(input) do you apply to lift the load of 300
N? b) What is the tension in the 3 lines of the ropes of the pulley on the
Output side with the load as illustrated in the diagram? c) If the load is
lifted to a height of 12 cm, how much rope is pulled on the input side d
(in) in the diagram? d) How much work in joules (J) is required to lift the
300 N load 12 cm (0.12 m)? e) How much Power in Watts (W) is required
to lift the 30ON load a distance of 0.12 m in 20 seconds.

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