Awesome lecture! I'm a biomedical engineering student and we're currently going over this topic. I find it fascinating how the resistance here is analogous to ohm's law.
Exactly right! There are many more applications of physics in the body (gas transport in lungs, electrochemical gradient across cell membrane, nerve impulse, etc). I agree, its pretty amazing stuff! You're in the right field! :-)
are you freaking kidding me. This guy is incredible!
yea you are right
This is by far the best explanation of this topic. Thank you so much. Seriously thank you.
Awesome lecture!
I'm a biomedical engineering student and we're currently going over this topic. I find it fascinating how the resistance here is analogous to ohm's law.
Exactly right! There are many more applications of physics in the body (gas transport in lungs, electrochemical gradient across cell membrane, nerve impulse, etc). I agree, its pretty amazing stuff! You're in the right field! :-)
The best anatomy lecture ever. You are amazing.Thank you!!!
you are amazing, thank you so much for this i'm in med school and i take your enthusiasm in these lectures as an inspiration, mad respect !!
Underrated channel sir u deserve million subscribers
I can not thank you enough for this!
The explanation given in this video is superb. Would recommend anyone interested in human physiology to subscribe!
Thank you Luke!
Thank you bro ,,, I will donate as soon as i graduate :)
Awesome .. thank you ..
What a hardwork?
You rule!!!! Thanks👏🏻👏🏻👏🏻
Thank you so much Sir !
wow awesome.. .... bt my lecturer was spread it every where ... cn u explain graph for compliance (flow vs pressure) which is quit similar to this...
love your videos, since it is more math based, hate the books due to being over written and lack mathematical explanation for easy comprehension.
V nice..
Kindly add other video regarding cvs
👏🏿👏🏿
I'm having hard time understanding how we knew that we should increase radius to %50,