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at 4:36 you write -j0.25.. this j cancels out with the multiplication. not a big deal, god knows ive made lots of those mistakes :) excellent content either way. really easy way to brush up on my fault analysis in a short amount of time.
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You forgot to mention why the -ve sequence voltage is 180 degrees out of phase with the +ve sequence voltage. The video gives the phase angle as 180 degrees, but doesn't show where the phase angle comes from.
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Hi thanks for this great video. Could you please consider making a tutorial on why different fault conditions dictate the way the sequence network are connected. e.g: LG fault - all seq network connect in series, LL fault - in parrallel, LLG fault - in parallel with 3xZ fault.
YEAR-END SALE: Up to 95% OFF: bit.ly/power-systems-courses
As 2023 comes to an end, it's time to take a breather and reflect on your journey this year. This isn't just about recognizing your wins and bumps in the road-it's also an opportunity to identify areas for growth, particularly in your learning goals. Lucky for you, our BIG END-OF-YEAR SALE is here to support you in achieving Your goals!
This video helped me a lot, cheers from Brazil!!!
at 4:36 you write -j0.25.. this j cancels out with the multiplication. not a big deal, god knows ive made lots of those mistakes :) excellent content either way. really easy way to brush up on my fault analysis in a short amount of time.
Support us by becoming our patron at patreon.com/generalpac ....Why?
An incredible amount of time and effort is needed to develop high-quality video tutorials. Each video takes approximately 10 hours to complete which includes learning the concept ourselves, brainstorming creative ways to teach and explain the concepts, writing the script, audio recording, video recording, and editing. This is why Hundreds-of-Thousands of people have watched, liked, subscribed, and left positive comments.
🎁 Enter the Thanksgiving Power System Pack Giveaway with your email! 🍀 One lucky winner will receive the Power System Fundamental Pack on November 23rd, and ALL participants get a FREE top-selling course. 📚
Sign in: bit.ly/thanksgiving-day-2023
why is it that the Vbase is equal to 13.8/sqrt of 3 not 13.8 only?
because we need the phase voltage and not the line voltage.. Vphase = Vline /sqrt(3)
You forgot to mention why the -ve sequence voltage is 180 degrees out of phase with the +ve sequence voltage. The video gives the phase angle as 180 degrees, but doesn't show where the phase angle comes from.
-1 is the same as 1 at 180 degree. In our case the voltage is - 2.98kv which is the same as 2.98kv at 180 degree.
98% OFF | EARLYBIRDS DISCOUNT
Sign up for our newly launched courses at 98% OFF. New video releases will be scheduled on a monthly basis. Grab this opportunity before it ends. bit.ly/earlybirds-discount
Hi thanks for this great video. Could you please consider making a tutorial on why different fault conditions dictate the way the sequence network are connected. e.g: LG fault - all seq network connect in series, LL fault - in parrallel, LLG fault - in parallel with 3xZ fault.