Fascinating to see the new things we've learned about structural engineering just within my lifetime. This was very well-explained. Also, thank you very much for the captions! Even many big youtubers don't bother with them despite the fact that many viewers need them, so I'm always very happy to see them.
Very interesting - I remember it well. Don't forget, as soon as the bridge started swaying just a little bit, everybody immediately rushed to the handrails on either side. That made things worse.
Very interesting. This was happening on a small foot beige I walked over the other day. There was about 15 people crossing at the same time. I thought someone was doing it intentionally but it might have been our normal walking all adding together.
The amount of force shouldn't matter, resonant frequency is resonant frequency. But the change in MASS from additional pedestrians would change the frequency. Or am I missing something?
Fascinating to see the new things we've learned about structural engineering just within my lifetime. This was very well-explained. Also, thank you very much for the captions! Even many big youtubers don't bother with them despite the fact that many viewers need them, so I'm always very happy to see them.
Glad it was helpful!
Very interesting - I remember it well.
Don't forget, as soon as the bridge started swaying just a little bit, everybody immediately rushed to the handrails on either side. That made things worse.
Very interesting. This was happening on a small foot beige I walked over the other day. There was about 15 people crossing at the same time. I thought someone was doing it intentionally but it might have been our normal walking all adding together.
Cheers mate
Informative video
The amount of force shouldn't matter, resonant frequency is resonant frequency. But the change in MASS from additional pedestrians would change the frequency. Or am I missing something?