2:51 The pressure under the wing does not increase. It's the pressure on top of the wing reduces more than under the wing and therefore the plane lifts.
Why would the size of the cylinder (LVOT) be able to tell us the stroke volume? Couldn’t you have more or less volume ejected than just the volume of the cylinder itself.
The best teaching on doppler I've seen, Thank you ❤
thank you for this amazing presentation
You’re amazing!!! Thanks for the lecture 🙏
Great presentation! Thank you for the clear explanation of bio -physics
😅 00
What,a power ,what amazing leacture....keep it up!!!! I Learn a Lot
Very helpfull and great apprieciation.
Solid video. Great work.
Thanks a lot this is a very coherent presentation 👍👍
Clearly explained concepts
Great presentation
Please give more... discuss all cardiomyopathies with example echoes
Great! thank you
Excellent
Thank you 😊
2:51 The pressure under the wing does not increase. It's the pressure on top of the wing reduces more than under the wing and therefore the plane lifts.
BTW when we measure volume it authomatically comes up on most newest machines
Why would the size of the cylinder (LVOT) be able to tell us the stroke volume? Couldn’t you have more or less volume ejected than just the volume of the cylinder itself.
At 15:30, couldn’t you just freeze the image and just measure the opening of the aortic valve?
I find it difficult to get the correct angulation for the AO on right parasternal view in cats, could you give any tips?