Show me how to calculate current flowing in the network using norton’s theorem with two resistors in series and two in parallel and potential difference across the 2ohm resistor
hello sir, in the question why did we put both negative the 5 and I2? usually we used to only put -5 and I2 as it is whatever the naming of it is. Really really thank you so much your explanation is top tier.
@blesstouch5284 it's because this time the current i2 is leaving the negative terminal of 5v hence it's a negative current. Remember that conversationally, current that leaves the positive terminal is termed positive.
Your teaching is sooo nice SIr, but slight mistake, at 10:35, already u have taken -5, so u shouldn'y take -I2 also, becuase both minus signs cancel out each other and result will be positive, PLS GIVE ME CLARITY IN THIS SIR
incase the voltage source was place the right way we wanted it to be the current will still be positive so please check it out, im also confused please help me out@@SkanCityAcademy_SirJohn
Thanks for all the good work, been having a hard time with this and Star delta transformation but now I'm all set and ready
Wow...thats great
😊😊😊😊
😊😊
Thank you
Show me how to calculate current flowing in the network using norton’s theorem with two resistors in series and two in parallel and potential difference across the 2ohm resistor
hello sir, in the question why did we put both negative the 5 and I2? usually we used to only put -5 and I2 as it is whatever the naming of it is.
Really really thank you so much your explanation is top tier.
It's actually the same thing...
You are most welcome
Thanks for providing this leeson
From: philippines
You are most welcome, and thanks for watching
Thanks for the good work🙏.
Request: Could you make a video on Millman's Theorem.
Yes...will do that
Great video! I understand why 1//1 but how are they //2 as well shouldn’t it be
(1//1)+2
the combination of (1//1) and 2 are connected to the same two nodes, hence in parallel = (1//1)//2
Do u determine the direction of your nortorn current? Or it is your decision
You decide however you want to do it.
God bless you sir🙌🙌
Amen, and thanks for watching. Good luck in your studies
When computing the IN, why are you using -5A for I2? was that a mistake? Thank you.
It's not a mistake, that's the right thing.
I mean clarify why you used - 5A for i2 as the rest were negative values. I need to understand. Thx.
@blesstouch5284 it's because this time the current i2 is leaving the negative terminal of 5v hence it's a negative current. Remember that conversationally, current that leaves the positive terminal is termed positive.
Ohoo true that.. Do you mind sharing your whatsapp number please, I think you can be my good coach.
@@SkanCityAcademy_SirJohn Thanks alot for a well explained response. Do you mind sharing your whatsapp number plz for more consultations?
Thank you so much
But I’m still struggling with the Norton’s theorem
I don’t know what to do 😢
Thanks for watching. Anyways, what's your struggle?
@@SkanCityAcademy_SirJohn finding IN or can I use VTH/RTH for the IN during exam?
Even when it’s theory?
When it's theory, you are required to use the 'normal' Norton's method. So tell me your problem with finding In so I can help you
@@efyanaomi-eh9wg its just current division, you should familiarize yourself with it. it saves alot of time
Thanks for your input, Robert
Thanks 👍
you are most welcome
my goat!
Thanks so much
Your teaching is sooo nice SIr, but slight mistake, at 10:35, already u have taken -5, so u shouldn'y take -I2 also, becuase both minus signs cancel out each other and result will be positive, PLS GIVE ME CLARITY IN THIS SIR
The negative has already been catered for in the current equation. That is why the equation in 10:35 had to be negative, negative to cancel out.
incase the voltage source was place the right way we wanted it to be the current will still be positive so please check it out, im also confused
please help me out@@SkanCityAcademy_SirJohn
Bro you good
Thanks so much Yusif
Goat❤
Thanks so much
At 7:01 why is it leaving the negative terminal and not the positive terminal
It's just for simplicity
What's your nationality?
The way you calculated RN confused me