Dear Atul kirdat, Major loss (Head loss) = (4fLV^2)/(2gd) Sometime in same formula 4f is written as lamda ( λ).That is 4f = λ Lamda is called as friction factor where as f is called as coefficient of friction.Same formula can be written as Major loss (Head loss) = (λLV^2)/(2gd).That means it depends on you which formula u want to use for calaculatibg head loss.
what are the uses of equivalent pipe, Principle, describe with examples.
Sir big thumps up to you 👍👍
Sir make videos on strength of materials
Sir fluid ka koi playlist bnade kindly phr a to z ap k lecturse smjna asan rhyga aese randomly smj mh aara konsa phly learn kre
Great explanation sir 👌👌👌
Sir , what is siphon?
Excellent sir
Sir 1 numerical ha kia ap solve kr do gy? Fluid k
Well explained sir
thanks aapne achha samjhaya hai
Sir lecture👌👌👌🔥
Sir please make a video on hazen williams equation.
Make a video on parallel pipes
nice
minor losses consider kyun nhi kia
❤
sir hume major loss main kab × 4 lena chahiye or kab nahi
Dear Atul kirdat,
Major loss (Head loss) = (4fLV^2)/(2gd)
Sometime in same formula 4f is written as lamda ( λ).That is 4f = λ
Lamda is called as friction factor where as f is called as coefficient of friction.Same formula can be written as Major loss (Head loss) = (λLV^2)/(2gd).That means it depends on you which formula u want to use for calaculatibg head loss.
great
keep it up
Best 🙏🙏🙏
Nice
Stanton and Moody diagram plz sir
With derivation
noce
Isme Q same kaise rahega ?? Flow rate 😕😕
Deepak Jangid since pipe in series so flow rate will be same. Irrespective of different diameter.
Flow rate same bcz when velocity increses than area decreases or vice versa so overall Q same
Sir ak branched pipe per 1 k numerical or karva do
Wow
Gud
Sir pls upload the video on...Diametr of nozzle for maximum efficiency of power =d =((D ^5÷8 fl v ^2))^1÷4