If working was on upper PT bar instead lower one, probability of joint failure between member #11 and #12 as cause of collapse is significant higher.
Right now I'm really more confused by this picture.
Member #11, #12, north deck and canopy position after collapse without deformation/destruction.
Any find something wrong, point me about please for recheck.
I see single asymmetrical concrete truss and ABC as not the best choices for a bridge.
All must be perfect designed and executed. Full collapse was half second only when bridge was looking safe and stable like a rock.
I searched for images with reference points and angles in same plane and mixed with a software editor capable to work with layers and transparency, GIMP in my case.
Images used:
Confirmation for north end of deck:
No traces from end of #12 outside deck:
For that simulator is same if you remove deck between #11 and #12 #10.
Delete "(11-12)" from data input.
UPDATE: You can remove member #12 entirely together with canopy.
Comparison between bridge collapse movie and theoretical simulation of truss without member #11
Deck fail between member #11 and #12 #10 and #11 is close too.
Courtesy to Zac Doyle for video and to Ivan Markov for online simulator.
Data input : (0, 100)(87, 100)(154, 100)(221, 100)(289...
On collapse, members #12 base was knock out by member #11 and pulled down from pylon together with member #11, by north deck fall.
That can explain the "chair" shape after collapse.
