Quite a good and concise lecture, very useful! But, it does not cover Streaklines in detail. The equation of Streaklines is not derived. Had that been done, the video would have been more complete.
I have a question here Professors. The streamlines are _parallel_ or _tangent_ to the velocity vector? I saw some source saying different things. Which one is correct? I really appreciate it
Both definitions are correct, they mean the same thing here. I don’t know if this will help but if you imagine a tangent line on the edge of a circle, if you drew a parallel line at the same point it would be equal to the tangent in its gradient and position.
wow. From demonstration to the delivery, everything deserves 6 stars out of 5.
Can't believe how succinct this is. Hours of lectures in 10mins
Oh my gosh! this video is absolutely awesome.
Amazing explaination
What is the term x/uo? I mean how do you get that term?
Thanks sir.
Quite a good and concise lecture, very useful!
But, it does not cover Streaklines in detail. The equation of Streaklines is not derived. Had that been done, the video would have been more complete.
Awesome
I have a question here Professors. The streamlines are _parallel_ or _tangent_ to the velocity vector? I saw some source saying different things. Which one is correct?
I really appreciate it
Both definitions are correct, they mean the same thing here. I don’t know if this will help but if you imagine a tangent line on the edge of a circle, if you drew a parallel line at the same point it would be equal to the tangent in its gradient and position.
Awesome video
Hi sir
Can you please do a video on ball screws design
Thanks
How to find eqn of pathline if x,y and z variable also present