Maam why should we assume same tension in both alveoli why not same pressure as they are connected via air and not in a way so that the tension can be assumed equal ? I am really confused at this point 😅
P= T/r - in aneurysms, radius increases - so this component T/r decreases - hence P is able to act on wall more . Moreover because of wall weakening, wall is not able to withstand that pressure
Ma'am. 1)Is the Tension T that you've mentioned at first-Due to the water and P -due to air. It is that tension which is counteracted by the surfactant? 2)How can we take T to be the same for both alveoli initially?
1. Very good observation. Tension is due tendency to collapse...this creates pressure inside...but yes correct if no air is there...there will not be any pressure
Ma'am. I have 2 doubts )Is the tension on the wall that you've described at first -The surface tension due to the water and P-due to air?! The surface tension due to water is then counteracted by the surfactant? 2)How is that we can take the T to be same for both alveoli initially? Thanks
Hey @physiology open, I am trying to link an article. My comment is getting deleted by youtube. Please check out this article - LAPLACE’S LAW AND THE ALVEOLUS: A MISCONCEPTION OF ANATOMY AND A MISAPPLICATION OF PHYSICS By Henry D. Prange
Yeah people have written that way that physics principles are not directly applied to physiology..that’s correct in one way …however sometimes it helps in simplifying complex physiology
This just made so much sense thank you so much! 🥺❤️
But isn’t the formula 2 x Tension x Thickness = Pressure x Radius?
Yes...sometimes the thickness is considered negligible like in case of alveoli....for muscular walls we need to consider thickness as well
@@PhysiologyOpen ohh ok I thank you 😊
Most welcome
amazing explanation! straightforward and understandable
Thank you 😊❤️
Made concepts very clear! Thanks mam
Pleasure as usual is mine
Maam why should we assume same tension in both alveoli why not same pressure as they are connected via air and not in a way so that the tension can be assumed equal ? I am really confused at this point 😅
😮 amazing lecture mam thank you so much .
Thank youuuu 😊
Would be grateful if u answer.
If laplace law is applied to aneurysms, aneurysm ruptures because P>T owing to increased radius of anurysm .
P= T/r - in aneurysms, radius increases - so this component T/r decreases - hence P is able to act on wall more . Moreover because of wall weakening, wall is not able to withstand that pressure
@@PhysiologyOpen thankz maam
@zeeshanzeeshan32 😊
Thanks for the video ma’am doubts cleared before test 😁
Great
Thank you mam.Understood it properly
Always love it when students understand the topic
Thank you so much mam❤
Most welcome
Ma'am.
1)Is the Tension T that you've mentioned at first-Due to the water and P -due to air.
It is that tension which is counteracted by the surfactant?
2)How can we take T to be the same for both alveoli initially?
1. Very good observation. Tension is due tendency to collapse...this creates pressure inside...but yes correct if no air is there...there will not be any pressure
2. Again very good...tension is per cm of imaginary line..so small or big doesn’t matter
Thank you so much ma'am
You are welcome
My pleasure always
Ma'am. I have 2 doubts
)Is the tension on the wall that you've described at first -The surface tension due to the water and P-due to air?!
The surface tension due to water is then counteracted by the surfactant?
2)How is that we can take the T to be same for both alveoli initially?
Thanks
We can't say surfactant counteracts but yes surfactant prevents the alveoli from collapsing.
Perfect 🩷🩷
Thank you
Thanks madam for the concept
Always welcome
Thankyouuuu maam!!❤
My pleasure
Very much helpful thanks
Glad it helped
Thank u very much mam💗
My pleasure 😊
Mam, does every alveolus has same amount of surfactant?
for explaining Laplace law, we assume that
Is law of laplace applicable to alveolus?
…
Hey @physiology open, I am trying to link an article. My comment is getting deleted by youtube. Please check out this article - LAPLACE’S LAW AND THE ALVEOLUS: A MISCONCEPTION OF ANATOMY AND A MISAPPLICATION OF PHYSICS
By Henry D. Prange
Yeah people have written that way that physics principles are not directly applied to physiology..that’s correct in one way …however sometimes it helps in simplifying complex physiology
Yeah in one way
?
Thank you:)
You are welcome
Not clear enough
Whatdid you not understand ? any specific question?
yea your accent.@@PhysiologyOpen
@nissahowny2825 you from where?