This is a great way to calculate the different values without resorting to the phase angles. If the current was initially worked out using voltage of 120 at phaser of zero degrees, which I did before, that will have rotated the phaser diagram and caused confusion. The lesson is not to assume voltage souce is at zero degree reference. I fell for that many times without realising until after watching the phasor clip by Mr Gordon and went back on my previous calculations and all the "fogs" were lifted. Thank you Mr Gordon.
Any comment on the followings please: to calculate the reactive power on the capacitor, (Ic^2)(Xc)= 1728VAR, current and reactance are not in phase. Same result is found using (Ec)^2/(Xc), Ec and Xc are in phase! So where and how the adjustment was made? Thank you.
Hi Dave, Youre video is myb one of the best explained content, please please think about UDEMY so we can learn more from you, or you have somewhere learning web site so I can aply on it? Thank you sir for explaining!
This guy is the goat carrying me through high school and college
real
Love the way you explain this. Patient, methodical and complete. Well done.
This is a great way to calculate the different values without resorting to the phase angles. If the current was initially worked out using voltage of 120 at phaser of zero degrees, which I did before, that will have rotated the phaser diagram and caused confusion. The lesson is not to assume voltage souce is at zero degree reference. I fell for that many times without realising until after watching the phasor clip by Mr Gordon and went back on my previous calculations and all the "fogs" were lifted. Thank you Mr Gordon.
such a calm perfect teacher ❤
Thanks for the wonderful explanation!
Nicely done and very easy to follow.
Any comment on the followings please: to calculate the reactive power on the capacitor, (Ic^2)(Xc)= 1728VAR, current and reactance are not in phase. Same result is found using (Ec)^2/(Xc), Ec and Xc are in phase! So where and how the adjustment was made? Thank you.
Good job for Excellent explain for understanding 👏👏👏👏👏
EXCELLENT TEACHING WAY SIR
Excellent explanation
What if you have 2 L at 1mH and 1 C at 1mF In series.pulsed at 9ms with 1V behind the pulse With the ground in Between capacitor and the 2nd inductor.
Hi Dave,
Youre video is myb one of the best explained content, please please think about UDEMY so we can learn more from you, or you have somewhere learning web site so I can aply on it?
Thank you sir for explaining!
Thank You
🙏🙏🙏🙏👏👏👏👏👏
thank you sir
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teso icu vagod
Great explanation.