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Reynold's Experiment to identify the type of flow

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Identify the flow by using Reynold's Experiment
Laminar Flow, Transition Flow, Turbulent Flow
#reynolds
#fluidmechanics
#laminarflow #turbulentflow
drive.google.c...

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5 сен 2024

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Комментарии : 80

@tejaganeshpilla2052 2 года назад

Excellent Explanation through practically.. Thank you soo much Sir..

@raiaakaistic_ 3 года назад

Excellent way of explaining the concept... Enjoyed it...

@rohitshelake7004 2 года назад

Thank u so much sir for explanation 🙏 😊. Good experiment😇

@shivam15K 2 года назад

i haven't word for your appreciation. This is really helpful for all of we student. thank you so much sir.

@sudeshpowar100 2 года назад

Thank you...

@shivam15K 2 года назад

@@sudeshpowar100 🤗🥰

@kartiksoni7404 3 года назад

sir big fan from SOE

@pksharathsharath6683 26 дней назад

Lovely

@sgtech6051 3 года назад

Nicely Elaborated, Helpful.👍

@Dilshad_majeed 3 года назад

Very nice sir jii ......tq

@sivasuryache4206 2 года назад

Usefull sir...the way you explained was really good

@wanguweraisis1229 3 года назад

Really helpful experiment, appreciate it. ✌

@abhijitbehera3284 3 года назад

Nice

@interesthink2523 2 года назад

it's cool exsperiment!

@varchana9272 2 года назад

Superb. Very clear.

@sathishgujjunuri7677 2 года назад

TQ..gd live practical explanation

@teimg1805 2 года назад

super helpful dawg.

@dhanrajsonkar4111 2 года назад

Excellent Explain

@adityakolhatkar7036 3 года назад

Greate experiment🔥👍🏻

@istutisrivastava1130 2 года назад

Superb explainantion sir ji 👍👍

@Shivamgarg-yi3vg 3 года назад

well explained sir

@swarnahavisha6358 2 года назад

Great explanation

@manojitmete7132 3 года назад

Excellent!

@fanstargaming6350 3 года назад

thanks

@mathew-119 3 года назад

Thank you so much brother

@sudhakargadade8589 3 года назад

Thanks Sir Really helpful for me 🙏👍

@andreavigano7826 Год назад

Grazie sudesh

@bigfore7083 2 года назад

👌

@sai_2222 2 года назад

Thank you so much sir

@md.shantoislam3874 2 года назад

Great explanation 🥰🥰🥰

@waterresourcecivilengineeringa 3 года назад

Nice video

@waterresourcecivilengineeringa 3 года назад

Thanks, you may also check my videos

@aaplashreyas2990 2 года назад

great video ...keep it up

@SanjeevSingh-oz8jd Год назад

Excellent information

@harishpawar4875 2 года назад

Can u please give me the purchase link of this kind of transperent pipe

@nthakur4686 4 месяца назад

nice experiment but put bucket under tap

@a-02sagarjadhav53 3 года назад

Ty sir

@mastimazakkidunya7661 Год назад

Keep making such videos

@phase1eternity654 2 года назад

sir please use a bucket instead of wasting the liquid , because it was distracting me from the topic. BTW great explainaion.

@sudeshpowar100 2 года назад

Okay... Thank you

@deepaksinghrawat5246 2 года назад

yes, same with me.

@Videosite361 Год назад

Thank you sir ☺️

@RobinSingh-qr7dm 3 года назад

🙌🙌🙌

@marufhosen1125 Год назад

Asslamualaikum sir, can you give me the video link of the procedure and calculation of Reynolds number apparatus.

@sudeshpowar100 Год назад

Will add pdf in the description... drive.google.com/file/d/1zmjsICikMIvs9Ug2jO0PCNh7ptu5fGY-/view?usp=sharing

@Tehseennsr Год назад

Thanx

@sudeshpowar100 Год назад

Welcome

@sri78hari 2 года назад

A good video with bad audio

@priteshwalke 2 года назад

For velocity calculation, which area r you taking?

@sudeshpowar100 2 года назад

First measure the flow rate then ...velocity is flow rate divide by internal pipe c/s area

@learning957 Год назад

Very nice but please add subtitles

@ahmedtantawy5662 3 месяца назад

Can i know how did you centered the needle in the pipe

@sudeshpowar100 3 месяца назад

By using frame we have kept it at its center

@ankursingh1912 3 года назад

@santoshmachhi503 3 года назад

👌👍

@ahmedtantawy5662 3 месяца назад

What was the diameter of the pipe used

@sudeshpowar100 2 месяца назад

1 inch

@sanskarjadhav3496 2 года назад

I have problem in calculation of this experiment

@sanskarjadhav3496 2 года назад

Please help 🙏🏻

@sudeshpowar100 2 года назад

@@sanskarjadhav3496 Please explore your doubt

@sanskarjadhav3496 2 года назад

@@sudeshpowar100 diameter of pipe (D) = 36.7×10^-3 m Density of water (p) = 1000 kg/m Viscosity of water = 0.97×10^-3 kg/ms Volume collected = 0.001 cm³ Time = 33.24 second Viscosity (u) = 0.02844 Then how to calculate Reynold number Please help 🙏🏻

@sudeshpowar100 2 года назад

@@sanskarjadhav3496 First calculate Discharge = (Volume/Time) then calculate Velocity = (Discharge/ Cross section area) then calculate Re=(Density*Velocity*Diameter)/(Viscosity)..... Use SI Units like Diameter in Meter, Discharge in cubic meter per second, Viscosity in Kg/ms or Pas or Ns/m2 Hope this will help you

@sanskarjadhav3496 2 года назад

@@sudeshpowar100 Yes Sir Thank You 😊

@Mood462 Год назад

Sir discharge kas kashych

@Mood462 Год назад

Volume kasa yenar

@sudeshpowar100 Год назад

@Game_of_life122 To measure volume, take a beaker of 1 litre volume. Or you can take 1 litre empty bottle. By measuring time required to fill one litre bottle.... you can calculate discharge Discharge (Flow rate) = Volume /time