Before this, I have seen 10 video on other channels RUclips, but I did not understand, madam, I watched your video first time I understand whole concept.❤
You are really incredible. You have explained the concept short and straight. I would recommend you to edit the title of video along with the number (Turbulent Flow - Part1 or 2) in a order to track the continuity. Additionally add the link of the previous video in the description for easy access.
Madam ji i m 100% sure .... No one can teach FM like you on youtube.... Your teaching abilty is excellent madam believe me ... I study FM from many teacher... My fav subject FM hai...
Q4.The Prandtl mixing length is A) independent of shear stress. B) zero at the pipe wall. C) dependent on fluid viscosities. D) constant for all fluids.
Mam, if du/dy is the change in velocity in the y direction then, how u' ( fluctuation in the x - direction) equals to l*(du/dy)? u' should be the change in velocity in the x -direction. Bas yehi doubt tha. Baki mam you are doing a great job.
Mam Reynold ne flatuating velocity aur avg velocity ko add nahi kiye hai o to multiple kiye hai yahi nahi samjh aaya baaki sab to best tha please concept clear kar dijiye ek baar phir se
Watch turbulent flow playlist for better understanding 🙂 ruclips.net/p/PLzz056xzvpUWp9MaToz1Dz1Q_2tE0945m
Before this, I have seen 10 video on other channels RUclips, but I did not understand, madam, I watched your video first time I understand whole concept.❤
Thank you 😊..but keep practicing..next time prepare early for exams...all the best 🙂
you clear my problem of mixing length definition in very good manner . thank you
you just made it look so simple .first i went to NPTEL and came here .thanx mam
@Sanjay Baiju thank you...nice of you 🙂
You are really incredible. You have explained the concept short and straight.
I would recommend you to edit the title of video along with the number (Turbulent Flow - Part1 or 2) in a order to track the continuity. Additionally add the link of the previous video in the description for easy access.
@Learner Eagle thank you so much 🙂...I ll do that changes...stay connected to channel 🙂
Excellent work 👍 keep it up from Pakistan
Guruji 🙏
Now I understand Prandtl mixing length ( it's amazing)
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Wow...very well explaination mam......thanku you so much ❣️
Your learning of the idea is very nice
Stay connected Subham 🙂 all the best for exam 🙂
Ary dada kia baap prhaya he
bhtreen lecture madam
bht bht shukria ❤️
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You teach very well I had clear all my difficulties only because of you thnxx so much for teaching us
@Dharmendra Raiswal thank you Dharmendra 🙂 nice of you 🙂 stay connected to channel 🙂 Do share and subscribe
Chumesori teaching 💓💓😘😘
Bohot accha explain kiya aap ne mam🎉🎉
@Manish... achhe se exam Dena...do practice 🙂..All the best for exam 🙂
Thank you so much ma'am for providing me this great knowledge
Nice of you 😊 stay connected
Thank you madam for this explanation
Wowww madam ji .... Ap to best teacher ho FM ki ... Maja aa gya ye concept aj smaj aya mujjee ....
Thanks for putting things in a very simple way...
@shahid lone thank you 🙂 stay connected to channel 🙂 Do subscribe 🙂
Madam ji i m 100% sure .... No one can teach FM like you on youtube.... Your teaching abilty is excellent madam believe me ... I study FM from many teacher... My fav subject FM hai...
Ty so much Anup...nice of u😃😇share this channel with your friends also...🙂🙂
Sure madam ji ... Thank you 😊😊
Thank you so much mam very nice. Thank you lot.
Super explanation Ma'am
Wow after this video concept look to familiar
You're efforts are wonderful mam❤️
Thank you 🙂stay connected to channel 🙂
your content so helpful mem.
@Gunin Kumar nath thank you 🙂 stay connected to channel 🙂 Do subscribe
very nice thanku mam
thank you so much ma'am , you teach better than our college professor 😊
Q4.The Prandtl mixing length is
A) independent of shear stress.
B) zero at the pipe wall.
C) dependent on fluid viscosities.
D) constant for all fluids.
please answer
@RA SERIES it's B...zero at pipe wall
Very helpful video
Thank you so much Ma'am
Nice explanation thanks a lot mam
I really appreciate your efforts
@Musarraf Khan thank you 🙂 nice of you 🙂 stay connected to channel 🙂
good efforts. my question is why u and v were considered as same though there is the possibility of difference in fluctuating velocity
You are very simple teacher without any doubt
Thankyou Shubham
..stay connected to channel 🙂
Best🎉
Good 👍
THANK U EXCELLENT VERY GOOD
best video on MLT
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Thank you mam for all videos. You take a lot of effort to explain to us. And it's results also very good... 😇❣️🙏🏻
Miss Rathore's Art Town thank you 🙂 this words of appreciation is everything for me 🙂 stay connected to channel 🙂 All the best for exam 🙂
Doubts cleared..thanks mam🙏
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Excellent way of teaching..... thanks mam
Thank you nirbhay...stay connected to channel 🙂
Excellent mam.
Nirbhay Pratap Singh ..stay connected to channel 🙂 Do subscribe and share
Best for understanding
Thanks mam 😊
Highly appreciated 🙏
@sumit do subscribe and share🙂
Very nice Ma'am
@dileep Prajapati thank you 🙂 stay connected to channel 🙂 Do subscribe 🙂
You r great mam
Thanks ma'am
very good
thank you
Very nice to understand
Superb Mam
@Shree Rameshwar Mahadev Man... Thank you 🙂 stay connected to channel 🙂 Do subscribe
Very good teaching mam
What will be the prandtl's Equation for oblique shock wave and same for normal wave
Thanks mam
Nicely explained
Make a video over numericals of turbulent flow
I will upload very soon..stay connected to channel 🙂
Prandtl mixing length zero at the pipe wall . Please mam explain about it
Make video about Relaminarization.
Ma'am you teach very well And easily understood without any doubt but put the number of the lecturer because of that we could easily see.
@LEHRAJ MINA...ok I will take care of this..I will give the number🙂
Mam, if du/dy is the change in velocity in the y direction then, how u' ( fluctuation in the x - direction) equals to l*(du/dy)? u' should be the change in velocity in the x -direction. Bas yehi doubt tha. Baki mam you are doing a great job.
Aur v = l(du/dy) kese ho raha hai?? MAM please ye doubt clear kardo!
Give the link of the video in discription that u suggest to see.
Yes sure I will put
❤❤❤❤
Mam Reynold ne flatuating velocity aur avg velocity ko add nahi kiye hai o to multiple kiye hai yahi nahi samjh aaya baaki sab to best tha please concept clear kar dijiye ek baar phir se
@suraj very nice panday...can u tell me at which particular time of video u don't understand...I will give you brief explanation 🙂
@@professornidhitrivedi4412 6:40- 7:0
Thanks
Mam please verify your youtube channel to add thumbnail in your videos
B/c thumbnail attract the viewers
So please
@Mahendra Jaroliya thank you so much!! I will do it very soon 🙂 stay connected to channel...do share and subscribe 🙂
Thank you mam
Be connected with channel 🙂 do share and subscribe 😊
And also video lecture short
jyada fast hogaya mam.....anyway note pe copy karliya
Tumko padana nahi ata ..tum pavika chainal ka vedio dekho
@Dharmendra Kumar thank you so much for comment and sorry that u waste ur important time here..🙂 all the best
Bacche nhi h hum XD
@Shivam Vats 😀 yes yes... thank you 🙂 stay connected to channel 🙂 Do subscribe 🙂
Actually, i saw this video to find out the Blasius equation and it's relation and i couldn't find it. Though, KUDOS to your cheerful attitude. 💯
@Shivam Vats thank you shivam 🙂nice of you 🙂 stay connected to channel 🙂 Do subscribe 🙂
Unfortionaltely I do not understand you :(
You are great mam
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thanks
thank you maam
Shahid Meir thank you 🙂 stay connected to channel 🙂 Do subscribe