Thanks very much, stay tuned for next Sunday's video where I'll attempt to explain the weird behaviour of the currents which leads us nicely into power factor!
That's really kind of you to say Peter, glad you're enjoying them. If you're ever not sure if something please comment as it probably means I haven't explained something well enough! Stay tuned for more!
Very informative videos very clearly explained but could you put all theses video series in order like part 1,2,3 or video 1,2,3,4 and so on please ,that's will be helpful. Thanks
Nice work.. can u actually demonstrate why that difference occurred mathematically? Taking in the low resistance of the coil into account.. it will be of great help
Check out these videos to answer your question on a different component: th-cam.com/video/LXpXDga-7xM/w-d-xo.html th-cam.com/video/vNJllbHrzII/w-d-xo.html th-cam.com/video/2pRKalO5g7w/w-d-xo.html Hope they help.
Does it matter if the resistive and inductive voltage lines were switched? For example, the Vr being on the y axis, and the Vl being on the x axis. Hope this question makes sense. Thanks for the help.
Explained clearly and concisely as always Joe 👍
Thanks Alan, it's a big subject so I like to break it down to manageable chunks. Stay tuned for more!
Thanks Joe. We're getting there! Have a lovely Christmas.
Thanks very much, stay tuned for next Sunday's video where I'll attempt to explain the weird behaviour of the currents which leads us nicely into power factor!
Electrician here! I these videos are very helpful
I honestly can say that I learn more from you than my actual level 3 teacher
Great course, you have made complex things so easy to understand by real sample and wonderful illustration. Thanks for sharing bro
Best teacher.
Aw, shucks!
Hi Joe .. great video.. you break complex material down into simple and easy to understand concepts !! Thanks ...
Thanks for the feedback and you're more than welcome. Stay tuned for more, we're heading into power factor in the new year!
You have a wonderful approach to teaching. Thanks Joe, thoroughly enjoying ( although not always understanding fully ) this series of videos.
That's really kind of you to say Peter, glad you're enjoying them. If you're ever not sure if something please comment as it probably means I haven't explained something well enough! Stay tuned for more!
Not at all Joe, sometimes it takes my brain a few attempts to process things. :) Have a Merry Christmas.
@ 08:45 - 08:55 of 11:42 i have reservations. the inductive line should move anticlockwise to increase the length of Vt.
The voltages in this example can't be more than 90 degrees out of phase.
You helped me a lot with this video. Thank you!
appreciated. many thanks
Very informative videos very clearly explained but could you put all theses video series in order like part 1,2,3 or video 1,2,3,4 and so on please ,that's will be helpful. Thanks
Thanks for the comment. 😊 Check out the playlist I've put together: AC Theory: th-cam.com/play/PL7eNzIRgKe07BOqPH7MrrKy89M3o4wU-2.html
Nice work.. can u actually demonstrate why that difference occurred mathematically? Taking in the low resistance of the coil into account.. it will be of great help
Check out these videos to answer your question on a different component:
th-cam.com/video/LXpXDga-7xM/w-d-xo.html
th-cam.com/video/vNJllbHrzII/w-d-xo.html
th-cam.com/video/2pRKalO5g7w/w-d-xo.html
Hope they help.
Nice
Joe, in my book 2 it shows this but the arrow is pointing downwards? as the current lags because its inductive.
Thank u so muchh. I understood everything.
My pleasure, glad it helps!
Mr Maths.... I LOVE IT 😁
the square root of 195 squared + 125 squared is 231.62V or have i messed that Vt up?
never mind, I've watched the rest of the video :D
Does it matter if the resistive and inductive voltage lines were switched? For example, the Vr being on the y axis, and the Vl being on the x axis. Hope this question makes sense. Thanks for the help.
Hi Cody, I guess the theory would stay the same but if you watch the list of videos you'll see the reason it's done that way. 👍
Love your voice
I have a question that I didn't find an answer for it the question is : why phasor and impedance diagrams have the same angles?
Sir kindly tell me why phasor diagram of current and impedance is same in RC circuit
It will be proportionally the same, as in the same angles but different lengths on each side.
why we multiply 1.732*L1 value to find line voltages why not L1+L2