The suspended cylinder has a weight of 50 lb

A) Determine the horizontal and vertical components of force at pin A.

B) Determine the magnitude of the horizontal and vertical components of force at pin B.

C) Determine the magnitude of the horizontal and vertical components of force at pin C.

D)Determine the horizontal and vertical components of force at pin D.

E)Determine the horizontal and vertical components of force at pin E

Transcribed Image Text:

The diagram illustrates a mechanical system with several components, each labeled for reference. The setup includes a wall to the left with two connecting rods, AE and BD, both measuring 4 feet in length. Rod AE is 3 feet above rod BD. The system features a pulley mechanism at point C, which is 1 foot in diameter and mounted on a horizontal rod BC that is 6 feet long. A rope is looped over the pulley, supporting a weight suspended to its right. To the left, the distance from the wall to point B is 3 feet horizontally, marked as x. The vertical distance from the bottom rod BD to the top rod AE is indicated as y, which is 4 feet. The weight hangs 1 foot horizontally from the pulley at point C. This setup could represent a physics problem involving levers and pulleys, likely focusing on the principles of mechanical advantage and equilibrium.