The concepts in this problem are similar to those in Multiple-Concept Example 4, except that the force doing the work in this problem is the tension in the cable. A rescue helicopter lifts a 94.4-kg person straight up by means of a cable. The person has an upward acceleration of 0.874 m/s² and is lifted from rest through a distance of 7.62 m. (a) What is the tension in the cable? How much work is done by (b) the tension in the cable and (c) the person's weight? (d) Use the work-energy theorem and find the final speed of the person. >

The concepts in this problem are similar to those in Multiple-Concept Example 4, except that the force doing the work in this problem is the tension in the cable. A rescue helicopter lifts a 94.4-kg person straight up by means of a cable. The person has an upward acceleration of 0.874 m/s² and is lifted from rest through a distance of 7.62 m. (a) What is the tension in the cable? How much work is done by (b) the tension in the cable and (c) the person's weight? (d) Use the work-energy theorem and find the final speed of the person. >

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Question

The concepts in this problem are similar to those in Multiple-Concept Example 4, except that the force doing the work in this problem
is the tension in the cable. A rescue helicopter lifts a 94.4-kg person straight up by means of a cable. The person has an upward
acceleration of 0.874 m/s² and is lifted from rest through a distance of 7.62 m. (a) What is the tension in the cable? How much work is
done by (b) the tension in the cable and (c) the person's weight? (d) Use the work-energy theorem and find the final speed of the
person.
>

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Step 1: Define given variables and find out tension in cable

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Step 2: Find out work done by weight of person and final speed of person.

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