the explanations are very clear, precise, i went through the ones on plastics, deformation. There's a lot more that could be done. A design step-up would be helpful in many ways. A little more dynamic feel to concepts and graphs is easily achievable through use of python/css. (Rhett Allain who writes for WIRED.com on physics uses nice gifs and embeds actual scripts to make things more interactive) Plus if you has a script ready, you won't have to say 'sorry'/'ok' again and again. (This would require a rehearsal on your part). But a sincere effort I'd say! Keep up the good work!
During the calculation of load in plastic analysis in the three bar case, you said when any one bar(in this case the middle bar) yields, we can further increase the load until the other two bar yields. So when we further increase the load until the remaining two bars yield, won't the middle bar which yielded first will experience more load than the other two bars? If that happens then the calculation of load for the middle bar should be done by more stress which will give more force and hence the total load for plastic analysis will increase. Please clarify in this regard! Thanks!
That is the whole idea of plastic analysis, we are loading the system till all the 3 bars reach their maximum level or till the system fails by breaking.
Big fan of your work
Best teaching i never seen still now
Thank u so much sir
That was some pretty neat explanation....I am a fan of your animation... amazing presentation sir..
Well done bro excellent explanation
excellent animation and presentation!
Bro really thank you so much yaar....... awsome yaar..... 140% better than major class room lectures
Very Helpful! Thanks a lot.
Thak you sir..really good lecture
Very helpful , thanks for making me understand the concept.
very very supb sir ji...Excellent
Very helpful lecture. Thanks a lot
Good one please carry on!
Great explanation 🔥
thank you so much, it's been a very useful one, really
the explanations are very clear, precise, i went through the ones on plastics, deformation.
There's a lot more that could be done.
A design step-up would be helpful in many ways.
A little more dynamic feel to concepts and graphs is easily achievable through use of python/css. (Rhett Allain who writes for WIRED.com on physics uses nice gifs and embeds actual scripts to make things more interactive)
Plus if you has a script ready, you won't have to say 'sorry'/'ok' again and again. (This would require a rehearsal on your part).
But a sincere effort I'd say!
Keep up the good work!
Shashank Sawant thank you, i am trying to improve my skills, hopefully I'll be better in future videos.
beautifully explained
nicely conceptualised
During the calculation of load in plastic analysis in the three bar case, you said when any one bar(in this case the middle bar) yields, we can further increase the load until the other two bar yields. So when we further increase the load until the remaining two bars yield, won't the middle bar which yielded first will experience more load than the other two bars? If that happens then the calculation of load for the middle bar should be done by more stress which will give more force and hence the total load for plastic analysis will increase. Please clarify in this regard! Thanks!
That is the whole idea of plastic analysis, we are loading the system till all the 3 bars reach their maximum level or till the system fails by breaking.
Sir
your videos are superb & beneficial
sir please upload more videos of design of steel
please sir.. 🙏🙏🙏
Why Axial and shear deformation is neglected in plastic analysis of beam????
Plz give ur link of three moment theorem or clayperon moment theorem of triangular load sum
Very good carry on 👍
how did you get P = 2025kN ?
Superb sir
+Hemant Gautam please share it with your friends, thank you.
sir please upload some topics in design of Reinforced concrete structures and also brick masonry structures...
sure, I would try to upload it .
Sir i am doing Mtec
Please help me in flaxibility member approach method
prashant ray you can mail your doubt I'll try to solve it, before that check all 3 videos of flexibility put on my channel.
Thank you so much Sir. It was really helpful.
Sir please upload ....problems based on Muller Breslau's principle sir please please please
Thank you sir, it was helpful
Why are you stressed the beam beyond yield platue
Because in real life scenario many times materials are stressed beyond yield point.
Sir please send me matrix method of structure analysis notes for Mtec
prashant ray im sorry but i cannot circulate the notes for for some personal reasons.
Sir .....only 15 days left for ma exmmm...sir plz plzz....upload problems based on muller breslau's principle