Finding Force in Element D-C of a Truss

In summary, The person has solved all but one force in a truss problem and is having trouble finding the force within element D-C. They have provided all relevant variables and equations, as well as links to pictures of the truss and their work for nodes A and E. The expert suggests applying the same methods used for nodes A and E to either joint C or D to find the force in the member CD.
  • #1
toolpusher123
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0

Homework Statement


I've solved all but one force. I can't seen to get the force within element D-C. All relevant variables are shown on the pics attached i.e loads, supports, dimensions etc...

Homework Equations


Sum of forces in x=0, sum of forces in y=0, sum of moments=0
on
Here are links to;
  1. Pic of truss: https://app.box.com/s/20kw3vfcrywrcimshta6
  2. Working for node A: https://app.box.com/s/7d70e0ikgmym08u4bqqj
  3. Working for node E: https://app.box.com/s/kbiyjv9v1u58sxg0g9lz
 
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  • #2
Why don't you try applying the same methods that you used to find the forces at joints A and E to either joint C or joint D, this should give the force in the member CD
 

Related to Finding Force in Element D-C of a Truss

1. What is a truss?

A truss is a structural framework made up of interconnected triangular units that can support heavy loads. It is commonly used in bridges, roofs, and other structures to distribute weight and provide stability.

2. How is force calculated in a truss?

In a truss, force is calculated using the principles of static equilibrium. This means that the sum of all forces acting on a truss must be equal to zero. By analyzing the forces acting on each individual element of the truss, the overall force can be determined.

3. What are the different types of forces that can act on a truss?

The three main types of forces that can act on a truss are tension, compression, and shear. Tension is a pulling force that stretches the material, compression is a pushing force that compresses the material, and shear is a force that causes the material to slide against itself.

4. How do you find the force in a specific element of a truss?

To find the force in a specific element of a truss, you need to first identify all the external and internal forces acting on that element. Then, using the principles of static equilibrium, you can set up and solve equations to determine the force in that particular element.

5. How does the force in an element of a truss affect the overall stability of the structure?

The force in an element of a truss is crucial in maintaining the stability and integrity of the structure. If the force in an element is too high, it can cause the element to fail and lead to the collapse of the entire truss. Therefore, it is important to carefully calculate and distribute forces in a truss to ensure its stability.

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