@@dhonidhoni3763 Hi, Dhoni! Crazy to think but these videos can take up to 40-50 hours (or more) to complete! As a teacher myself, I'm always trying to find the time and finances to set aside to make these. But if you or anyone would be interested in supporting the channel to help me create and upload more videos, you can visit: www.patreon.com/physioflip
This is the best explanation available for these topics! Searched up all over TH-cam but could not understand other explanations. Thank you so much for this! Truly the best!
As I am studying for the MCAT, I am looking for videos that are straight to the point and your video did just that and more! Thank you. I will be looking at your other videos.
That's the best video I've watched for Oncotic pressure and Hydrostatic pressure. It's so easy to see a picture and learn through the concept. Thank you so much Physio Flips.
Make more videos, have you seen ninja nerd ? He is really good, you explain this in a shorter video in the simplest way. Keep up. I wish you have way more videos.
wow... just wow. beyond amazed how everything makes sense the moment I finish watching your video. You have no idea how many different videos i have tried watching and still end up with a fuzzy understanding. Thank you so so so so much! you are a life saver!
Hi Sajid! Thank you for the kind words! If you'd be interested in supporting the channel to help me upload more videos, you can visit: www.patreon.com/physioflip
OMG! Finally I get the concept on my fifth Hydro vs. Osmo video! Love your straw example so much! Hate those fancy explanations. I haven't studied for five years just resume it for my post-grad degree, I was like is my brain degenerating already? I nearly give up on this topic, thank you so much!!!
Thank you for this simple explanation of hydrostatic and osmotic pressure. I was getting myself confused by just reading the textbook. I understand both processes a lot better now!
Because by osmosis, water always flows to regions with higher osmolarity or solute concentration, and since small particles can move freely in and out of capillaries , then their concentration is almost the same on both sides ,so do not contribute to the colloid osmotic pressure.
@@mohammedhosam1935 Nice, Mohammed! That is perfect. Only particles that are restricted to a particular compartment (like proteins that are stuck in the blood vessels) contribute to the difference in concentration and the osmotic pressure.
@@physioflip Not sure if you will read this comment a year later, but I want to clarify something. Doesn't water follow the sodium due to osmosis? I guess I am questioning your comment that sodium does not contribute to osmotic pressure when osmosis is when water moves from high concentration of water to a low concentration of water but it also moves from low concentration of solute to a high concentration of solute and the sodium solute is definitely contributed to water.
@@taliafreda4820 Thanks for the question! You are correct--water does follow the higher concentration of solute! However, one important thing to consider: because sodium ions are small, they freely pass between the bloodstream and the extracellular fluid. They move in and out of the blood freely until their concentration equalizes. So, sodium concentration in the blood is the same as the sodium concentration in the extracellular fluid. So, these ions do not contribute to the movement of water into or out of the blood as the ions are equally concentrated inside vs. outside the blood.
This was really helpful.... please I can't find the video on the last things you said, which was about oedema of the leg when you sit for too long. Please how can I get the video
I loved how you used the straw to explain the tissue hydrostatic pressure. All of a sudden, this thing makes so much sense. Thanks brother✊
Right back at you, Samuel ✊ Thanks for the support-glad the video helped!
@@physioflip why no new video mate?
@@dhonidhoni3763 Hi, Dhoni! Crazy to think but these videos can take up to 40-50 hours (or more) to complete! As a teacher myself, I'm always trying to find the time and finances to set aside to make these. But if you or anyone would be interested in supporting the channel to help me create and upload more videos, you can visit: www.patreon.com/physioflip
@@physioflip Thanks. Subscribe
This is the best explanation available for these topics! Searched up all over TH-cam but could not understand other explanations. Thank you so much for this! Truly the best!
Ahh thank you!! Simple but detailed explanations is what we're all about!
@@physioflip When New Videos will come?
@@physioflip These videos really help!
You shouldn’t stop,sir! 🥺
-A 1st year Medical Student from Bangladesh!
The way you explain it makes it so obvious and logical. I....understand it. I can't thank you enough.
Thanks, @tasharice2781 !
thank you for using the keywords "osmotic" "reabsorbed" "hydrostatic" "filtered" in a full sentence. Helped me understand it better
I LOVE this video!!! Finally understand osmotic and hydrostatic pressure after SO LONG of not getting it. THANK YOU!!!!
Thank YOU
I just passed my first test in grad school because of you (taking advanced physio). Just wanted to say thank you!!
That's one of the best compliments any teacher can get. So glad to hear it. Congrats on getting through that exam, Tiffany!
As I am studying for the MCAT, I am looking for videos that are straight to the point and your video did just that and more! Thank you. I will be looking at your other videos.
physio flip you explain so well; the graph at 5:40 is genius !!!!!!!!!!!!!! Very helpful; thank you!!!!
Thanks, David!! 🙏 glad it helped. And no kidding-5:40 is my favorite part of the video. Not too sure why.
Thank you! I've been trying to understand this for over an hour for a paper, and this FINALLY makes sense!!!
This is the best video on the internet explaining these pressures. Keep it up. Subbed!
Probably the best science explanation I have seen ever in history. Thank you sir.
This video helped me a lot thanks ❤
I don't know why good content in TH-cam doesn't have too much views while bad and stupid content have millions
Hey thanks, Ahmad!!🙏 You’re so welcome. Feel free to share and spread the word! Have fun learning physio 👍
@@physioflip
Sir your work is a masterpiece👌🌹. I gladly did spread it to all my medicine colleagues 😀 ❤
Thanks, Ahmad!!
WOW THANK YOU SO MUCH. YOUR VIDEOS ARE SO SO HELPFUL!!!!! this world does not deserve an angel like you
Thank you for saving my life tonight. I can’t understand the textbook and even the video provided by the e-book. Thank you so much!!
The BEST video ever! I was searching all over TH-cam until I found you. Thank you!!!
Finally i can visualize it 😭 great help
You got it!
Thank you. You did a great job explaining this concept!
Thanks, Kyla!
That's the best video I've watched for Oncotic pressure and Hydrostatic pressure. It's so easy to see a picture and learn through the concept. Thank you so much Physio Flips.
you are truly heaven sent because the way you explained this a toddler could understand thannk you it made so much sense
The way you explain things is very helpful. I finally get it! Thank you so much keep up the great work you’re a genius!
That straw analogy is genius!! I just read that capillaries have pores in them and it fits perfectly with the straw analogy thank you!
my doctor took him 2hrs to explain this while u did it in a very short time thank you
Finally a short video, that is easy to understand. You got a new subscriber 😊.
Make more videos, have you seen ninja nerd ? He is really good, you explain this in a shorter video in the simplest way. Keep up. I wish you have way more videos.
wow... just wow. beyond amazed how everything makes sense the moment I finish watching your video. You have no idea how many different videos i have tried watching and still end up with a fuzzy understanding. Thank you so so so so much! you are a life saver!
That is the best demonstration I have ever seen. Seriously, thank you!
Excellent- best explanation I've found so far. Thank you
Absolutely majestically explained, really good job over there. Thanks man you deserve more subs❤️
I know, right?? :) Thank you for the support.
this explains more simple and more knowledgeable than other videos.. thank you sooo much.. its more understandable.. ❤❤❤❤
Best explanation I have ever seen in the past four years. And I’ve seen so many
Awesome video and well explained. I don't know how many videos I watched about this topic and nothing was clicking. Thanks for making it simple.
and you only have 2.89K subscribers!! man, you deserve more. Thank you for this.
Now it’s totally clear to me....thanks.
Please make a video of movement of fluid across the glomerular membrane.
Hi Sajid! Thank you for the kind words! If you'd be interested in supporting the channel to help me upload more videos, you can visit: www.patreon.com/physioflip
You helped us so very much. Please unlock your videos and make more content please. We love you. We need you.
This was ammaaaaaaazing :) Thank you soo much ... I was trying to understand this concept for Glomerular Filtration rate. and now it is crystal clear.
Yay! Glad it helped. And you’re exactly right! These concepts apply to how fluid gets filtered at the kidneys too! 👍👍
Beautifully explained !
OMG! Finally I get the concept on my fifth Hydro vs. Osmo video! Love your straw example so much! Hate those fancy explanations. I haven't studied for five years just resume it for my post-grad degree, I was like is my brain degenerating already? I nearly give up on this topic, thank you so much!!!
best explanation ever! thank you
The topic makes so much sense now. Thank you Physio flip
So osmotic , oncotic and colloids pressure was always the same😐😭
Very well explained thank you!
Thank you for this simple explanation of hydrostatic and osmotic pressure. I was getting myself confused by just reading the textbook. I understand both processes a lot better now!
🤌🥺this video is really helpful
Now finally after so many doubts I clearly understand the work of hydrostatic and osmotic pressure
Very good. You explained it in a very simple way and yet understandable. Good job.
Wow what an amazing video! Everything was so clear to understand. Please continue to make more videos like these they help so much. I appreciate this
Dude, quality of the videos is everything.. you deserve it all
Thanks , I’ve just understood a topic that was once hard for me to get
Awesome! It’s definitely a tough concept. Glad the video helped! Don’t forget to subscribe and stay tuned for more videos 👍👍
Phenomenal video. I watched several others that were unhelpful before finding this. Thanks for an easily digestible explanation. I subscribed.
I don't know how to thank you because you always save me 😔
You got it! Stay tuned for more videos :D
Thank you. I'm beginning to love physio😭😭😭😍😍😭😭
really loved how you use to give some diseases to understand more ,thanks ❤
Short, crisp and extremely helpful
Why don't smaller particles (like ions) contribute to the colloid osmotic pressure?
Hint: they are small enough to freely enter/leave the blood at the capillaries.
Because by osmosis, water always flows to regions with higher osmolarity or solute concentration, and since small particles can move freely in and out of capillaries , then their concentration is almost the same on both sides ,so do not contribute to the colloid osmotic pressure.
@@mohammedhosam1935 Nice, Mohammed! That is perfect. Only particles that are restricted to a particular compartment (like proteins that are stuck in the blood vessels) contribute to the difference in concentration and the osmotic pressure.
@@physioflip Not sure if you will read this comment a year later, but I want to clarify something. Doesn't water follow the sodium due to osmosis? I guess I am questioning your comment that sodium does not contribute to osmotic pressure when osmosis is when water moves from high concentration of water to a low concentration of water but it also moves from low concentration of solute to a high concentration of solute and the sodium solute is definitely contributed to water.
@@taliafreda4820 Thanks for the question! You are correct--water does follow the higher concentration of solute! However, one important thing to consider: because sodium ions are small, they freely pass between the bloodstream and the extracellular fluid. They move in and out of the blood freely until their concentration equalizes. So, sodium concentration in the blood is the same as the sodium concentration in the extracellular fluid. So, these ions do not contribute to the movement of water into or out of the blood as the ions are equally concentrated inside vs. outside the blood.
Wow extremely creative and smart explanation, I understand the idea now thanks to you
The explanation was simple and to the point!
I like how you added a note about the different parts in the video
Keep up the good work!
^_^
Thanks, Chini! Happy studying!
^_^
Best explanation I got instead of cramming on a book for hours!!!Thanks a lot!!!!:)
genuinely hate revising this and ur vid was gorg, and really helped! thanks man
I really appreciate your help, explained really well and understood it better then my PowerPoint slides. Thank you
Fantastic video. I’m in Paramedic school and wanted a different explanation. I appreciate this
the straw metaphor is genius!
New subscriber here. Thanks for easiest tutorial ever on this topic.
This is marvellous 👏 u are really a teacher.. you got the teaching skills
Thanks a lot.
🙏
3 years passed and it's still awesome ❤
Your videos are so useful and great to understand , please don't stop ❤
You mentioned that the explanation regarding Na+ and Cl- would be in the comments. I cannot find them. would you mind elaborating?
Same for me 😭 I can't find it
I understand this topic only from you
A great work.. Keep going
Thank you, Fatma! So glad this helped you. If you'd be interested in supporting the channel you can visit: www.patreon.com/physioflip
great explanation, thanks! now i know what a colloid is too;) paint, milk, fog, etc.
Very helpful and I love that you showed us how it happened! Thank you!
Great video! Explanation and visual really helped me to understand.
I have to give a thumbs up👍👍👍... Thanks for the video.
very well explained!! thank you!! you made it easier to understand!!!
Thank you so much! I was wondering what causes the hydrostatic pressure to decrease?
This was really helpful.... please I can't find the video on the last things you said, which was about oedema of the leg when you sit for too long. Please how can I get the video
Thanks. This was great. I cant seem to find the second following on video from this - is there any link you could provide please?
Incredible. It FINALLY makes sense. Thank you so much.
This video really helpful to me to understand oedema
Yay!
Finally i understood this topic, Thank youu
So glad I found this awesome channel
Thank you so much for your simple explanation
This was a great video! Helped me with my pathophysiology exam
THANK YOU SO MUCH!!!! I got it by your great explanation !!
Sir...there is no answer in comments for ....the question why Na+and k+ not contributing to oncotic pressure...pls reply kindly......🙏🙏🙏
I’m totally subscribing after this
Earned a sub for that straw example
the best ever explanation!!!
Thank you. You are a very talented teacher!!!
Awesome video mate!
Thanks, Nick! Appreciate it.
Great video. Thank you!! Can you suggest a reference article or something?
This makes so much sense. Thank you so much
You got it, Andiswa!
Thank u so much, this really helped me alot
Yay! Glad to hear it, Mona!!
Awesome explantation 😍😍
Awesome video and explanation! Thanks
A better and complete explanation
thanks alot to this brilliant explanation 😊keep going 🌸💎
I love your video with explanation. Where is your next video link u mention at the end? I can't find it..
2 years after your class and your stil teaching me stuf. Thanks profe
Agustin! Wussup, buddy!
This helped so so much thank you
Glad it helped!
Great job , simple explanation . love it!
brilliant! Thanks, I finally got it. Great examples!
amazing explanation
Thank you, Raza!!
How can this be tested to see if edema is an issue and why it happens?
Is it when both pressures don’t get along?
Fantastic explanation. Thanks