Question 2- The 60-lb collar A can slide on a frictionless vertical rod and is connected as shown to a 65-lb counterweight C. Draw the free-body diagram needed to determine the value of h for which the system is in equilibrium. You need to find the h between the cable and vertical. h= Al paaaaaaaAN a -15 in.. 60 lb B C 65 lb
Question 2- The 60-lb collar A can slide on a frictionless vertical rod and is connected as shown to a 65-lb counterweight C. Draw the free-body diagram needed to determine the value of h for which the system is in equilibrium. You need to find the h between the cable and vertical. h= Al paaaaaaaAN a -15 in.. 60 lb B C 65 lb
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![Question 2-
The 60-lb collar A can slide on a frictionless
vertical rod and is connected as shown to a 65-lb
counterweight C. Draw the free-body diagram
needed to determine the value of h for which the
system is in equilibrium.
You need to find the h between the cable and
vertical.
h=
Al
-15 in..
60 lb
B
C
65 lb](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fac7c6172-231a-4368-b63c-a7fe235f5e8b%2Fb23facc6-1246-4ee6-b407-0853f9e4d4e2%2Flp6wgd6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question 2-
The 60-lb collar A can slide on a frictionless
vertical rod and is connected as shown to a 65-lb
counterweight C. Draw the free-body diagram
needed to determine the value of h for which the
system is in equilibrium.
You need to find the h between the cable and
vertical.
h=
Al
-15 in..
60 lb
B
C
65 lb
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