I am trying to independently solve physics problems and I am attempting to solve [Chapter 5 problem 4-4 on page 140](https://bayanbox.ir/view/6682075492227836301/Feynman-Tips-on-Physics.pdf) from the book "Feynman's Tips on Physics".

The problem is as follows:

> A painter weighing 180 lbs working from a "bosun's" chair hung down the side of a tall building desires to move in a hurry. He pulls down on a fall rope with such a force that he presses against the chair with only a force of 100 lb. The chair itself weighs 30 lb.

> (a) What is the acceleration of the painter and the chair?

> (b) What is the total force supported by the pulley?

The diagram is as follows:

[![enter image description here][1]][1]

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(a) The question states the **weights** of the painter and the chair are 180 lbs and 30 lbs respectively. I used this idea to perform the following step:

$$\text {Total mass of the painter and the chair} = \left(\frac{(180 + 30) \rm lbs}{g}\right) $$

He exerts a **downward** force of 100 lb on the chair.
His net motion will be **upwards**.

I think the 100 lbs force the person exerts on the chair is transferred to the rope he is pulling on.
[![enter image description here][2]][2]

But that is just the string he is pulling on. The diagram shows that only one end of the rope is attached to the bosun chair. That end will have an upwards force of (100 + 180 + 30) lbs (as shown in the picture). This way, one end will have a 100 lbs force and other a force of (100 + 180 + 30) lbs. I don't know if this is possible and I am not totally convinced that the rope is experiencing a force of 100 lbs due to the painter pulling on it.

**How is the 100 lbs downwards force affecting the overall system (the painter and bosun's chair)?**


  [1]: https://i.sstatic.net/ZfP4b.jpg
  [2]: https://i.sstatic.net/w7hQ5.jpg
  [3]: https://i.sstatic.net/tSfDD.jpg
  [4]: https://i.sstatic.net/aE6OU.jpg