Thank you very much! I didn't understand the concept until I watched your video. This is the best video explaining the lotus effect I can find on TH-cam!
In my opinion the concept of less friction due to low contact area is not correct. The formula for friction force = mhu x N. Where mhu is a material constant and N is the normal Force. Mhu can’t change and the the normal force stays the same if you draw the free body diagram. There will be exactly the same amount of friction, regardless of the contact area.
Hello its me saeed from pakistan. Ur this video make me your fan. I m phD scholar and working on surface modification as hydrophobic. My material is inorganic material and want to make it hydrophobic in nature. Can you plz give me/share a list of hydtophobic materials. I will be very thankful in this regards.
I agree! This video is great! For years now I've been trying to explain this and this video does it all too well
this is amazing, the best explanation i could find on this topic, thanks so much
Thank you very much! I didn't understand the concept until I watched your video. This is the best video explaining the lotus effect I can find on TH-cam!
The perfect explanation of physics I have ever watched
one of the best explanation video I have ever seen about lotus effect.
In my opinion the concept of less friction due to low contact area is not correct. The formula for friction force = mhu x N. Where mhu is a material constant and N is the normal Force. Mhu can’t change and the the normal force stays the same if you draw the free body diagram. There will be exactly the same amount of friction, regardless of the contact area.
Agree. Also, the video invokes rubber materials. Rubber's friction behavior is unique and not like other materials.
Very nice, this is the best Video of this effect on TH-cam. A big thumbs up for you👍🏼
Searching for this type of video
Great video 🔥
Amazing explanation!
Crystal clear 😻
Thansk you so much
This amaizing explanation...
Has this been published in book or journal form, if so where, is there a link, please...
Great explanation thanks alot 👌👌
does friction depend on area of contact?
Great explanation and great animation 😍 😍
great explanation thank you
Thank you for the easy explanation. Great.
Amazing! This video greatly helped in my studies.
Best explanation with great animation.
This video is so amazing. Could you allow me to use your video in my school related project?
Please respond to me as soon as possible.
Yes, you can 😊
Thank you 😍
Such an easy explanation is seen in very very less videos
Amazing video, good job bro
You sir are amazing!
Nice explanation.. Thnq
Damn that! So good all my holes in knowledge was gone
oao, Amazing explanation. Great job man
Well explained 👍🏼👍🏼
i didn't know i can learn this much when looking for a solution to clean my phone.
amazing video with very clear explanation!!
excellently explained. Thanks!
The friction does not depend on the surface area!
Thnk u so much , amazing explanation😍👌
Is it also called suface tension
Hello its me saeed from pakistan. Ur this video make me your fan. I m phD scholar and working on surface modification as hydrophobic. My material is inorganic material and want to make it hydrophobic in nature. Can you plz give me/share a list of hydtophobic materials. I will be very thankful in this regards.
Ultimate explanation
thank you sir! very informative video!
Amazing
Thank you very much! Great video!
Glad it helped!
Can't place the accent...
Very well explained, thank you very much.
brilliant!
Superb
I have a 25 million year old example of hydrophobic force. For sale. It is an amber inclusion.
very good explanation! I get it know!
Glad it was helpful!
good job
good
this comment section looks like a butt load of bots but none the less, good video lol
😮😮
This is from our Qur'an and from phoranic science