Sir...I have seen so many videos regarding velocity triangle of centrifugal pump...But this video simply and easily clear all my doubts..and you're explained it perfectly and simply.Thank u Sir
the water is not entering radially rather it is entering into the impeller eye axially and then by the influence of the impeller it moves radially and then due to the rotation of the impeller blade it is leaving the impeller tangentially. Note : THE WATER IS NOT ENTERING RADIALLY
direction of u1 is wrong. if the direction of u1 is which u have taken then resultant will not be what u have taken it to be .. please see too it and do not teach wrong to the students .. Doubt on whether i should rely on your source or not
Sir...I have seen so many videos regarding velocity triangle of centrifugal pump...But this video simply and easily clear all my doubts..and you're explained it perfectly and simply.Thank u Sir
Easy to understand, simple yet informative. Thank you and keep it up !
the explanation was awesome sir.
Very helpful.. Thank you sir
Best one I ever listened to ... Thank u so much
I found the Most genuine video on this topic
Exactly
Thank you. I'm amazed by how you managed to make the velocity triangles make sense. well done
Thank you Sir, this is what I was searching for 🤩🤩
Excellent💯👍👏.. Vedios.. Thanks...
Great Sir
You Explained it very Nicely....
Simple but clear and effective explaination.
Finally found a good video after searching a lot
This little explanation help to score more marks 👍👍
Very simple explanation. Thank you sir
Thank you so much sir I got clarity on the velocity triangle 👌👌👌👌
Best one , made it so simple to understand ..... thank you sir
A helpful lecturing, thanks.
Good explanation , better than textbook
Thank you so much sir..with your explanation I got clarity..
Explanation super
Love from Andhra Pradesh😍
Nice explanation
This is wholesome. ❤
No 1 teaching
Thanks you sir .it's good explanation
Is U2 parallel to the tangent to the circle? Is V2 co-linear with the blade tip?
can u draw the triangle if the blade velocity direction is not given in the problem ?
you are amazing
Well explained....
Good knowledge
really helpful
What is discharge is also radial?
Hello Sir, which book are you referring to?
Ek no.
Super lecture sir
How will we get vr2......?
Awesome bhai
You must make slide presention with notes typed in that only points ,then it will be better for viewers
sir how to draw velociy for same vane moving in cw direction.forward vane
Amazing!
best in short to the point
Vw means?
Vw means Whirl Velocity
Thanks for watching☺️
@@ENGINEERSACADEMY18 What does Whirl Velocity mean? ( I understood that V_f is "flow" velocity means the velocity of the flow of water)
Thanks 👍
Well done
how do we know the direction of V2? please answear my question
You can understand it as the resultant of Vr2 and u2, that will be easy to remember.
If you have more doubts, please comment
In your playlist, videos are not set in proper sequence. Please correct this
thank you
The link isn't working
Are velocity of flow equal..... Vf1 and vf2......
You can say Vf1=1.5 Vf2......
Super sirr
hi will it be possible to do an example on axial flow fans please
Yes, videos on axial flow will come after centrifugal pump series.
Superb
Please call need your help and assist on Impeller designing
Why no lanch new video sir
Thanks sir❤️❤️❤️
Good sir
thank you sir
Thanku
thanks sir
Part-2
Thanxx
I thought this was the triangle meme ......
W
My lecturer at university is great, but you just explained the concept in 6 min that took an entire 45min lecture to cover.
velocity diagram at inlet is wrong
Work done please
Workdone by centrifugal pump Will be uploaded today
D will be morrrrrrrr
the water is not entering radially rather it is entering into the impeller eye axially and then by the influence of the impeller it moves radially and then due to the rotation of the impeller blade it is leaving the impeller tangentially. Note : THE WATER IS NOT ENTERING RADIALLY
No man, water entrance is radial...... The reason is that the suction pump has a bend when it enters the impeller.
This is not the way to teach about angles
but a good way to remember brother
direction of u1 is wrong. if the direction of u1 is which u have taken then resultant will not be what u have taken it to be .. please see too it and do not teach wrong to the students .. Doubt on whether i should rely on your source or not
He is correct. U1 is blade speed. In this case, blade is rotating anti clock wise....... Direction of U1 is correct
Thank you sir , this is what I was searching for 🤩🤩
Good explanation
Thank you sir
Thank you
Thank you sir , this is what I was searching for 🤩🤩