home work 1) if the load is purely reactive then it must be an inductor or capacitor, these elements will never consume any real power over a period because these are energy storing elements they absorb some power but give out the absorbed power over a period so the average real power consumed is zero. maximum power absorbed will be zero. 2) sub RL = Rth, XL = -Xth then Pmax = vth^2/4*Rth ^2
Sir Plz complete all the topic of this subject which you discussed in first lecture of Network Theory. These all are most important and informative as well. I really appreciate your hard effort. So again i request you sir plz complete the whole series of this subject ASAP . Thank you Sir and Thanx to Neso Academy....!
@ 21:45 Does this mean that for a transmission line (connected to an AC-voltage source) this is required: Z(source) = Z(line) = Z(load) for maximum power transfer? But what is Z*(Thevenin) in this equation? Thank you!
The '-' sign indicates that if the behavior of the supply is capacitive then your load must be inductive to transfer maximum power to the load and vice versa.
home work
1) if the load is purely reactive then it must be an inductor or capacitor, these elements will never consume any real power over a period because these are energy storing elements they absorb some power but give out the absorbed power over a period so the average real power consumed is zero.
maximum power absorbed will be zero.
2) sub RL = Rth, XL = -Xth then Pmax = vth^2/4*Rth ^2
2) RL = Rth , XL = -Xth, Pmax = |Vth|^2/4Rth
Waiting fr diz playlist so long.. Thanq fr uploading sir
Sir Plz complete all the topic of this subject which you discussed in first lecture of Network Theory. These all are most important and informative as well. I really appreciate your hard effort. So again i request you sir plz complete the whole series of this subject ASAP . Thank you Sir and Thanx to Neso Academy....!
got it thank you so much. ❤
Thank you Sir ❤🙏🙏🙏❤
Hi, I wanted to know what are the benefits of joining the membership of neso academy channel. thank you.
H/W:
1) If RL=0 there is no power transfer no matter what you do to XL
2) Vth²/(4*Rth)
How you find the equation !
@@alloc7260 Put the maximum condition (RL=RTh & XL=-XTh) in
Avg. Power formula = (Vth²RL) /(Rth+RL)²+(XL+Xth)²
Denominator me 4Rth square hoga
Thank you sir ❤️
We have RL as variable and XL as fixed in case 2. Why there's not a case with RL as fixed and XL as variable? Is there any particular reason for that?
That is the home work problem brother
Understood, Your explain is very clear 👍🏻
thank you sir.
love you sir your lectures are very helpful and wonder full
sir, This is a great explanation, could you please cover all other parts of the syllabus as soon as possible...
sir next when will be uploaded.?
Thanku so much sir.. 🙏
Explain what is complex conjugate pls
Awesome 👌
@ 21:45 Does this mean that for a transmission line (connected to an AC-voltage source) this is required: Z(source) = Z(line) = Z(load) for maximum power transfer? But what is Z*(Thevenin) in this equation? Thank you!
Sir please upload videos on Python
Why we considering the supply source is a maximum value?? It could be rms also?
sir everyday upload more videos sir...
CAN ANYONE SAY PLEASE WHY "2(Rth+Rl)(Xth+Xl)" term is ignored in denominator????
coz the rhs is 0, so the numerator should be 0 and the denominator can be ignored as long as its not 0
And what is about j2. sqare of j is -1
Please sir upload video fast upcoming chep and content bcz we preparation for gate 2021.s o please please sir upload video fast as soon as posible
Please complete course 🙏 network
Why the case of RL fixed & XL variable is not considered?
Because Xl never takes any real power .So there will be no effect on pmax if you change Xl only.
Why P=I^2Zl
What is j with XL and Xth
❤
🎉
please sir.
i m reqiesting you.
What is d practical significance of
XL = -Xth??
No . When we isert RL=0 into eqn1 then the whole term get equals to zero. So max power cant be acgieved, Whenever Rl=0
It is that if u have capacitive load in the n/w, it has to be balanced out by same amount Inductive load.
The '-' sign indicates that if the behavior of the supply is capacitive then your load must be inductive to transfer maximum power to the load and vice versa.
Please make shorter videos..🙏
Bruh this is like the shortest vedio that could be made in covering this topic man💀
@@praveen7603 What is Bruh? Its Bro or Brother.
@@akshitjain913 🗿