Madam uh r method of teaching is really very Amazing madam aap kyun nhi ab lectures upload krtai hoo ham Sara power system aap sai padhna chahatai hai please madam phir sai lectures upload kijiyai
Load meant for real and reactive powers. But, Power can be three types real, reactive and apparent. If you observe the derivation of static load flow equations i have represented the complex power in rectangular form just to separate the real and reactive powers. In load flow analysis, we want to see how much of real power and reactive power is flowing from one bus to other or in the network. If u are talking about the load and power in terms of real and reactive quantities, yes u can use the terms interchangeably.
Whatever derived is in polar only. Power flow expression is having V and Y quantities right? V can be represented in polar Y also can be represented in polar If u want to represent it in rectangular form, you can . By the relation Y=G+jB
Good explanations!
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Madam uh r method of teaching is really very Amazing
madam aap kyun nhi ab lectures upload krtai hoo
ham Sara power system aap sai padhna chahatai hai
please madam phir sai lectures upload kijiyai
Mamm Apne bahut achaa Explained kiya love you mam❤❤❤
what a perfect material for power system analysis
Happy faces from today
Well explained mam
Exalent explaination madom👍
Excellent Madam
Thanks 🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏
Mam make videos of complet syllabus of ps2 that is 18ee71
Why ypq taken teta as angle in place of del
Good Morning Mam, is load flow and power equations are same?
Load meant for real and reactive powers. But, Power can be three types real, reactive and apparent. If you observe the derivation of static load flow equations i have represented the complex power in rectangular form just to separate the real and reactive powers. In load flow analysis, we want to see how much of real power and reactive power is flowing from one bus to other or in the network. If u are talking about the load and power in terms of real and reactive quantities, yes u can use the terms interchangeably.
@@psumalatha5659 thank you
@@psumalatha5659 thank you very much mam
Can we derive power flow equation in polar form?
Whatever derived is in polar only. Power flow expression is having V and Y quantities right?
V can be represented in polar
Y also can be represented in polar
If u want to represent it in rectangular form, you can . By the relation Y=G+jB