What a great teacher!. Your time and effort is really appreciated. I am studying to become a PE and your knowledge and lecture helped me greatly. You are a good man. God bless you. Thank you.
for the question in this video, the values of R1 and X1 are given. Otherwise, R1 and X1 can be determined by performing a short circuit (SC) test on the transformer.
What a great teacher!. Your time and effort is really appreciated. I am studying to become a PE and your knowledge and lecture helped me greatly. You are a good man. God bless you. Thank you.
Im from South Africa doing n5 and i just had to come here to learn
At second sum,since inductor current lags by 90degree of minus will come then the ans is -0.8j you have mentioned as +0.8j
Shouldn’t be Zt on Ex-29 be multiplied by k^2 for the secondary side of the transformer?
why is that when i solve this, the voltage is slightly off to the other equivalent circuit? so it means that this is not accurate?
thanks, you make it simple and easy to understand. good job!
Your formulas are incorrect. Therefore also the calculations are wrong.
very gooooooooooooood
thank you very much.
Hi Paradeep, I like your lecture
thanks but ı think somethings were wrong. explain : we have 0.5+i. I=56.25 ph-36.87 A. how is possible Voltage is 56.25? I found 62.88 ph 25.66 V.
Great video. I have a question though. Why wouldn't the copper losses be = (I2')^2 * (R1 +R2')?
thank u
How is R1 and X1 worked out?
for the question in this video, the values of R1 and X1 are given. Otherwise, R1 and X1 can be determined by performing a short circuit (SC) test on the transformer.
@@pradeepyemula6015 so when you perform a shirt circuit test, what equation would be used to determine them?
@@jordanw4798 see 9th video in my playlist titled “AC Transformers”
th-cam.com/play/PL-uxPiMl0_6FPrEBGS4EwFBK5WMosImyq.html
@@pradeepyemula6015 sorry, im probably just confusing myself. Ive watched that video a few times. Do you label R1 and X1 as something else?
Sir do it for facts devices
cmon man
isnt V1/V2 = k? thus also meaning E1/E2=k?
3:37
Yeap and k=I2/I1=N1/N2 also
Only in case of ideal transformer
how can we change the naught resistance and naught inductor's side
Thank you
K=E2/E1, not E1/E2
negative
Very neglect
Worst