How Do You Solve a Truss Equilibrium Problem with Incorrect Force Calculations?

AI Thread Summary
The discussion revolves around solving a truss equilibrium problem involving three forces of 45 kN, 24 kN, and 12 kN. The participant initially calculated forces C and T using equilibrium equations but arrived at incorrect values. A suggestion was made to correct the force calculations by incorporating the 12 kN force into the Fx equation. The correct equations for vertical and horizontal forces were provided, indicating that the participant may have missed including the 12 kN in their calculations. Accurate application of these principles is essential for determining the correct magnitudes of forces C and T.
JasonR2
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Question:

Three forces of magnitude 45 kN, 24 kN and 12 kN are applied to the truss connection as shown. Knowing that the connection is in equilibrium, determine the magnitude of the forces C and T.

fI9E29j.jpg

Equations:

Fx = 0
Fy = 0

My attempt:

Fx=0:

-24kN + Tcos40 + Csin20 = 0

Fy = 0:

45kN + Tsin40 - Ccos20 = 0

By substitution:

Divide first equation by sin20:

2.24T + C = 70.17 kN ---> C = 70.17kN - 2.24T (Plug that C into equation 2.)

Tsin40 - (70.17kN - 2.24T)(cos20) = -45kN

2.75T = 20.94

T = 7.62kN (Plug that back into equation 1 to find C)

C = 53.10 kN

However the answer is supposed to be C = 44.89kN and T = 4.35kN

What am I doing wrong?
 
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How do you get your Fx equation?
 
For a start sign convention:
∧ +ve & >+ve

v=0
-24 + CCos70 = TCos40 +12​
h=0
-CSin70 = TSin40 +45

from here you should be able to get answer​
 
I think you missed the 12 kN in your Fx equation. I didn't go through the math though.
 

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