Nice to see you still teaching on here Jeff! I watched many of your videos years ago. You’re a great teacher and helped me tremendously. Thank you so much! I hope you are doing well
I'm pretty sure the inflection point you talked about would actually be at the same x location on the deflection graph, where as on the slope graph it would be a minimum point at that location.
In a previous video you talked about order of the lines. Does this still apply on the slope graph? If so, does that mean it's linear on the slope graph from where P is applied until the end of the beam?
Isn't the slope graph you drew actually the deflection? it wouldn't make sense for the x intercept of a function's derivative to be the inflection point of the function.
as soon as I graduate and start working, I'm donating to this channel. Thank you so much for all the hard work put into these videos!
same here, he deserves our tuition money.
Same!!
والله لولاك يا عمو جيف ما كنت رح انجح الله يسعدك بحياتك
same
Nice to see you still teaching on here Jeff! I watched many of your videos years ago. You’re a great teacher and helped me tremendously. Thank you so much! I hope you are doing well
Thank you so much. You make mechanics fun! 2 weeks of class are summarized in one video. Thank you again and I hope you are doing well.
I’m still in high school and my brother is doing engineering. He’s teaching me to do these things as well. So cool.
I'm pretty sure the inflection point you talked about would actually be at the same x location on the deflection graph, where as on the slope graph it would be a minimum point at that location.
Thank ya Sir. Helped me alot last year with last minute practicing, having no idea how to draw shear F diagrams and all.
Professor Hanson never fails to make me laugh.
when jeff says I got you
then you don't have to worry about anything #legend
Wonderful solids lessons!! really taking the time to explain the problems along with a good sense of humor :))
such an amazing lecturer! so sweet and funny hehe
Really enjoyed this lecture keep it up
In a previous video you talked about order of the lines. Does this still apply on the slope graph? If so, does that mean it's linear on the slope graph from where P is applied until the end of the beam?
YEAHH THANKS JEFF! 🔥🔥🔥🔥🔥🔥🔥
Isn't the slope graph you drew actually the deflection? it wouldn't make sense for the x intercept of a function's derivative to be the inflection point of the function.
Why do you draw bending moment diagrams in those positions? I thought bending moment diagrams are drawing in that side where is tension layers?
This is great professor Hanson! I love your videos. I have a question: are you using any textbook for this? It would be really useful for me to know
Check out my book for this series on Amazon! Just search for my name! Hope it helps.
@@1234jhanson sure! Thank you!
Legend
Thank you
I love you
why there are no x?
Hanson! I forgot about the “Van Halen force” 😂😂
ughh jump
why does he say the deflection is exagerated?
Cause in real life the beams will bend but not as much as he has drawn them bending
uhhh jumpp
that moan had me rolling
Příliš mnoho reklam. Každé kliknutí na posun = 3 reklamy v jednom bloku.
12:43