I find this video fascinating as a hydraulic engineer with zero training in the medical field. I apply most of fluid mechanic theories to hydraulic systems for example the flow of water through pipes. I find the flow of blood in the body system and the flow of water in a pipe network strikingly analogous.
Absolutely correct. Cardiovascular system is a closed system with viscous fluids in it. It is an amazing system to check the hemodynamics and many hydraulic engineering processes.
You said that increase blood flow will cause turbulence.. Will increase blood flow due to increase blood vessel diameter also cause turbulence of the blood in the vessel? Kindly reply.
I find this video fascinating as a hydraulic engineer with zero training in the medical field. I apply most of fluid mechanic theories to hydraulic systems for example the flow of water through pipes. I find the flow of blood in the body system and the flow of water in a pipe network strikingly analogous.
Absolutely correct. Cardiovascular system is a closed system with viscous fluids in it. It is an amazing system to check the hemodynamics and many hydraulic engineering processes.
this channel deserves more likes and subscribers
Excellent talk sir
Thank you.
u r a magician sir thank u so much 👍
Thanks for this. Very much appreciated.
Thank you Sir! That was very very helpful!
worth watching👍
Thank you very much
You said that increase blood flow will cause turbulence.. Will increase blood flow due to increase blood vessel diameter also cause turbulence of the blood in the vessel? Kindly reply.
Hello sir, can you decribe the equation of hagen - poiseuille in relation of volume of blood, hope you may answer soon.
Thanks sir
sir your last words thou 😂
This is the first Indian I can tolerate.
Thank you so much