The free-body diagram of the beam which supports the 80-kg load and is supported by the pin at A can be seen in the image attached below.
The first image shows the diagram of the beam and the second image shows the free-body diagram of the beam.
The resolution of forces in the system is well understood by the principle of equilibrium where a stationary body will remain balanced when subject to parallel forces provided that the total sum of the overall external forces is zero.
The free-body diagram is a graphical representation used to visualize the forces applied to an object.
The equilibrium of forces on the x-axis is:
[tex]\mathbf{\sum F_x = 0}[/tex]
The equilibrium of forces on the y-axis is:
[tex]\mathbf{\sum F_y = 0}[/tex]
The equilibrium condition at any point is:
[tex]\mathbf{\sum M = 0}[/tex]
From the free body diagram attached in the second image below,
- the horizontal reaction is located at point A as [tex]\mathbf{ A_x}[/tex]
- the vertical reaction is located at point A as [tex]\mathbf{A_y}[/tex]
- the tension = T
- the weight = W
Therefore, we can conclude that the free-body diagram of the beam which supports the 80-kg load and is supported by the pin at A can be seen in the image attached below.
Learn more about the free-body diagram here:
https://brainly.com/question/19345060?referrer=searchResults
