I love these. It's decades since I graduated as a mechanical engineer, but I still get a ton of value from these. I got lost in college when we went to Mohr's circle. It was all too fast for me. Thank you for these.
sir,Please explain to me what forces act on a hollow sphere (given: D, thickness, yield stress) recessed deep in the ocean. how deep (ft) can the sphere be sunken.Thank you,
I don't understand why the pressure acts on the circle of the cut. I would have thought it acts on the same thin area hollow ring on the inside of the circle... Anyone mind explaining?
yes you are right , it gets complicated there you have to consider a small area on which the pressure is acting and then integrate it (considering small element as a ring).
I love these. It's decades since I graduated as a mechanical engineer, but I still get a ton of value from these. I got lost in college when we went to Mohr's circle. It was all too fast for me. Thank you for these.
Thanks very much. I'm glad these videos help :-)
I find your videos very helpful and nicely explained. Thanks a lot Professor.
I like your first principles approach 🍒🌱⛅
You are simply awesome sir....great stuff.
What about thick wall spherical pressure vessel? When r/t
simple, very interesting, very generous for sharing this. Thank you😀
Sir maximum share stress for spherical pressure vesel?
sir,Please explain to me what forces act on a hollow sphere (given: D, thickness, yield stress) recessed deep in the ocean. how deep (ft) can the sphere be sunken.Thank you,
I don't understand why the pressure acts on the circle of the cut. I would have thought it acts on the same thin area hollow ring on the inside of the circle... Anyone mind explaining?
yes you are right , it gets complicated there you have to consider a small area on which the pressure is acting and then integrate it (considering small element as a ring).
Video is good
But video voice having some other noise so please voice quality must be improve.