Friction factor for Laminar flow & Turbulent flow | Smooth & Rough Pipe | Turbulent flow | Pipe Flow
HTML-код
- Опубликовано: 25 апр 2020
- #frictionfactor #turbulentflow #smooth&roughpipe
Friction factor for laminar flow and turbulent flow in smooth and rough pipe is educational video to understand how to choose friction factor for given smooth and rough pipe in turbulent flow.it is necessary to understand before solving example of turbulent flow in smooth and rough pipe.
Before watching this see Velocity Distribution for turbulent flow in terms of average velocity for smooth and rough pipe
• Velocity Distribution ...
velocity distribution for turbulent flow in smooth pipe and rough pipe..link is given below
• Velocity Distribution ...
velocity distribution for turbulent flow in pipe
• Velocity Distribution ...
Hydrodynamically smooth and rough boundary
• Hydrodynamically Smoot...
Darcy Weisbach Equation for head loss due to friction
• Darcy Weisbach Equatio...
Fluid Mechanics Chapter wise playlist link is here:
Fluid statics (Pressure Measurements)
• fluid statics, Hydro s...
Laminar flow in pipe (Viscous flow)
• Laminar flow in pipe (...
Notch and weir
• Notch and Weir, Notch ...
Fluid kinematics
• Fluid kinematics, Deri...
Fluid dynamics
• Fluid Dynamics, Deriva...
Total pressure and center of pressure
• total pressure and cen...
Hydroelectric power plant
• Hydroelectric Power pl...
Turbulent flow in pipes
• Turbulent flow in pipe...
Solved example of Turbulent flow
• Solved Example of Turb...
flow through pipe
• Flow through pipe, Pip...
Solved example of flow through pipe
• Solved Example of flow...
Dimension analysis and similarities
• Dimension analysis and...
Boundary Layer
• Boundary Layer concept...
Properties of fluids
• Properties of fluid, F...
open channel flow
• Open Channel Flow, Der...
Motivational video
• motivational video
#VelocityDistributionforturbulentflowintermsofaveragevelocityforsmoothandroughpipe #turbulentflow #velocitydistributionforsmoothandroughpipeinhindifluidmechanics #civil #mechanical#numericalofturbulentflow #turbulentflowinpipe #frictionfactorforsmoothandroughpipe #howtochoosecoefficientoffrictionforturbulentflowinsmoothandroughpipe #coefficientoffrictionforlaminarandturbulentflow #frictionfactor #coefficientoffriction
#gtu #rtu #fluidmechanics #turbulentflowinpipe #professornidhitrivedi #gpsc #turbulentflow
mind blowing, exceptionally best
Mam fluid mechanics me mera bahut jada concepts clear h because of u i am following u from 3rd sem and avii 4th sem me ye pahla videos aapka maine dekha thanks mam ❤️
Thank you 🙂this words means a lot to me 🙂 keep practicing and working hard...all the best for exam 🙂
Mam...only u have solved this confusion..thank you for putting such great efforts.
@Harsh vardhan thank you Harsh🙂 nice of you 🙂 stay connected to channel 🙂 Do subscribe 🙂
Explained very well 👍
Thank you mam ❤️🥺you are great 🔥
Thank you so much ma'am...
Solved grt confusion...
Ati sundar voice 👍
mashAllah v.nice
Fabulous...
Thnks mam,your this vedio is very healpfull to me for clearing my confusion.
Stay connected to channel 🙂 all the best for exam 🙂
Best video
Thanks @professornidhitiwari for helping us 🙏
Great ma'am, so much effort, thank you...
@Maths thank you 🙂 stay connected to channel 🙂 Do subscribe 🙂
God level teaching👍🔥🔥🔥
@Harsh Jha thank you 🙂 stay connected to channel...Do subscribe and share it with your friends too 🙂
too good
Ma'am aap great ho......
Thank you 😊..stay connected
Very good explanation 👍
@Risiyas Ali thank you 🙂 stay connected to channel 🙂 Do subscribe
very well explained mam , Great lecture
@Shahmir Khan thank you 🙂 stay connected to channel 🙂 Do subscribe
@@professornidhitrivedi4412 done mam
I don't understand indian language, but Alhamdullilah I could understand your calculations thank you ma it was of Great help
Please use dark marker to write on board.
in 19:20 mam advising us for regular revision le me watching this video before 2 hrs of exam😂😂
Do revision...this subject requires revision to be pro at the exam when everyone try to remember we are writing answer like a Pro..to become pro we need revision 😹
Yes mam today I felt it🥲
🙏🙏🙏
@Desh Prem Singh thank you 🙂 stay connected to channel 🙂 Do subscribe
Friction factor (f) for laminar and turbulent (smooth pipe) function of Re.no. but in case of turbulent (rough pipes) is function of R/k(i.e relative smoothness) and not function of Re.No.
very cute maam
mam in video at 14:20 turbulent flow m fc k formula m power 0.257 or nicche f wale power 0.237 bola hai aapne dono ki power same hai ya alag alag
Good Madam
Some confusing factors were cleared.
@naeem akbar thank you 🙂 stay connected to channel 🙂 Do subscribe
I got confused with the smooth pipe the exponent used in Darcy friction factor in the denominator is different from the Fanning coefficient of friction.
Thnku madam clear the confusion of friction factor and coeff. Of friction
samjh nhi aara h
So sorry 🙂...but don't skip the topic...learn from other channel...all the best for exam 🙂
The video quality & ink on board is poor, not seeing clearly.
You need to check your video Quality ❤