the picture that is given is the 16 lengths of tubing in a 4 x 4 bundle. The top left corner of the bundle is shown against the column. So with the 18 degree angle I guess I can do some trig to figure out the centroid of the 32" x 32" square. Then use the resulting forces to find the moment...
I thought the same thing.. but its in a big packet that was given to me at the advising office of the school. Using that approach, the R value is the part that I'm struggling to determine
I have the weight of the 16 lengths of tubing. Which is roughly 20,500 pounds. The weight of the channel of course will be dependent on the length I chose to design with. Where I'm stuck is the Moment. I feel as if the problem is missing information regarding the distance the beams are from the...
I'm studying for my professional engineering exam and came across a problem that was never really covered in my courses in school. I was wondering if I could get some input from some people.
Design a bolted joint to attach a suitable american standard steel channel at an 18 degree angle to...
I'm studying for my professional engineering exam and came across a problem that was never really covered in my courses in school. I was wondering if I could get some input from some people.
Design a bolted joint to attach a suitable american standard steel channel at an 18 degree angle to...
