Thank you Zahi! I am an electrical engineer currently tutoring / teaching all high school, and some college, math and science. I hope one day to teach electrical engineering in a college or university =)
Hi Yuvi... In the power calculation, the trigonometry for multiplying two vectors is wrong. It should be Cos(a+b). In the current calculation, Cos(a-b) is correct for division of two vectors.
Sir, What if there was a line resistance (say 2 ohm), should the average power formula at the end change ? ie Should I do voltage divider to find the Vrms at load in such case.. (Its 2019, So I don't expect to have any reply.. nevertheless your video was useful ) This has the most in-depth analysis on Y and Delta connection... But the like and view count is comparatively low.. (Like from me, thank u sir )
Superbly explained. Thanks:)
Thank you Zahi! I am an electrical engineer currently tutoring / teaching all high school, and some college, math and science. I hope one day to teach electrical engineering in a college or university =)
It was a great help ! Thanks
you are awesome , Thank you
Yes, succinct and to the point!
Hi, Zahi I like your lecture
Thank you!
There is a mistake in the Power. the Power abs by BN is not the same!! because the current phase is different
Hi Yuvi... In the power calculation, the trigonometry for multiplying two vectors is wrong. It should be Cos(a+b). In the current calculation, Cos(a-b) is correct for division of two vectors.
That should be rms value,not peak value. P is used as a subscript for phase voltage.
Sir, What if there was a line resistance (say 2 ohm), should the average power formula at the end change ? ie Should I do voltage divider to find the Vrms at load in such case..
(Its 2019, So I don't expect to have any reply.. nevertheless your video was useful )
This has the most in-depth analysis on Y and Delta connection... But the like and view count is comparatively low.. (Like from me, thank u sir )
thanks SIR i wish you were my lecturer
❤❤❤❤❤❤❤
thanks
If you learned nothing in the class come here - unimap
Lol unimap.. Pauh ke tuuuuu.. Haha
go nale mosimane o phaphang ,yo netseng go balabala botlakala. Mo reng a ikete.
Tq..but needed some speed
sir tnxs
can we get the pdf copy