All of this stuff will defiantly be applicable in real life and not just purely academic. I can't wait to show everyone at work how axillary equations can be used to determine the stability of a make-believe system. I'll probably get a raise. A cheap PLC defiantly can't control 95% of the systems out there. I'm so glad I decided to take a control theory class. It's so useful.
@@sultanalajmi6089 you will get 0 in the first num in Sˆ3 row so you must make it epsilon to continue the solving, other wise the test is failed, after you finish the table you must then find the value of the number that have epsilon instead of direct numbers by take the lim with epsilon -----> 0 and see the sign of them, you will get a change in sign 2 times and that means it have 2 poles in RHP, and you can see the full explanation in case 1 video
Wow, I had no idea that things could get this involved. I'm enjoying the ride, and I just hope that I can hold on. Thanks again for making and sharing everything!
This isn’t that involved tho? It boils down to replace row with above polynomial’s derivative, with the condition the roz is a odd row. And you have to check the roots of the polynomial you extract as they are a portion of the characteristic polynomials roots.
Amazing lecture as usual!! Can’t wait to watch lectures regarding Root Locus--need those to pass my exams. Please upload them as early as possible. Thank you so much!
How to find the other two poles which exists on the LHP on s Plane?? Please explain sir. Cause:- because of your video I had score 4 marks in this question out 6 in class test. 2 marks are deducted because I was unable to find the rest two poles. But,I scored 4 marks because of your video and I appreciate it.😊 Edit:-It was a last minute study just before test😂
Sir I confused when Si diode is used in clipper problems And also in the polarity of the output voltage (Vo).. In your all clipper problems sir u used ideal diode and you took the Vo +ve always while appying KVL So sir clear my doubt
All of this stuff will defiantly be applicable in real life and not just purely academic. I can't wait to show everyone at work how axillary equations can be used to determine the stability of a make-believe system. I'll probably get a raise. A cheap PLC defiantly can't control 95% of the systems out there. I'm so glad I decided to take a control theory class. It's so useful.
way to say that you don't work in any innovative engineering field
@@EneaGWhat makes you think I wasn't being serious?
@@jonsuttle8104 were you serious?
My Answer for the H/W is 2 , which is option c)
How did you find this answer? What I found was zero option a 🤷🏻
@@sultanalajmi6089 you will get 0 in the first num in Sˆ3 row so you must make it epsilon to continue the solving, other wise the test is failed, after you finish the table you must then find the value of the number that have epsilon instead of direct numbers by take the lim with epsilon -----> 0 and see the sign of them, you will get a change in sign 2 times and that means it have 2 poles in RHP, and you can see the full explanation in case 1 video
Cant wait to be a master at control systems thanks to these.
My exam is tomorrow 💀🪦 undoubtedly one of the most challenging subjects I've ever encountered I hope I don't screw things up tomorrow...
no of sign changes 2, so 2 poles on the right side of the plane. option c is correct answer
thank u for the lectueres. Answer is C. 2 poles on RHP.
H/W question
... ans: option c two poles in RHP
Wow, I had no idea that things could get this involved. I'm enjoying the ride, and I just hope that I can hold on. Thanks again for making and sharing everything!
This isn’t that involved tho? It boils down to replace row with above polynomial’s derivative, with the condition the roz is a odd row. And you have to check the roots of the polynomial you extract as they are a portion of the characteristic polynomials roots.
@@AzakaduneI suppose what someone considers to be involved is all relative.
Please upload lectures on ROOT LOCUS
Option C - 2 20:14
HW:
(c) 2
bro,in the question the trannsfer function is of open system na??should we first convert into closed loop transfer function????
@@singleking8620 open loop so use H(s)=1 as feedback doesn't change in output.
Even I had that doubt
How did you find this answer? What I found was zero option a 🤷🏻
Your content is to good no one can beat u @nesoacademy ..pls upload more topic on subject it is helping a lot .....
Amazing lecture as usual!! Can’t wait to watch lectures regarding Root Locus--need those to pass my exams. Please upload them as early as possible. Thank you so much!
How did your exams go?
@@PunmasterSTP he failed
@@huzaifasarwar5205 Did he say that somewhere, or are you assuming? 🙂
@@PunmasterSTP he failed
@@Anavrinnn But how do you know? Were you in his class or something?
All the method are so comprehensive
my solution is (C) 2...lecture was well explained, thank you.
same bro
How did you find this answer? What I found was zero option a 🤷🏻
You should also cover different plots regarding stability. 🙂 That will be more helpful
Thank you for your amazing lectures. Please which textbook do you recommend for control system course?
Thank u sir for these kinds of videos.
I'm from India but I love it so much.
How to find the other two poles which exists on the LHP on s Plane??
Please explain sir.
Cause:- because of your video I had score 4 marks in this question out 6 in class test. 2 marks are deducted because I was unable to find the rest two poles.
But,I scored 4 marks because of your video and I appreciate it.😊
Edit:-It was a last minute study just before test😂
sir very very helpful thank you so much Sir
16:17 Why you split Routh array into 2 parts?
What's the significance of this 2 parts?
Nice lecture sir 😊
Excellent explanation sir 🙏🙏🙏 TQ so muchh 🙏
HOME WORK-Ans-B
please provide PPT'S of datastructures and discrete mathematics
The no of open loop poles lies in the left half of s plane is 2 ans c
I solved the homework with the 'e' thing from the last video and the answer was 2 'c'.
thanks Sir🙏❤
Thanks!
Option C
poles on lhp can be complex conjugate also how you know they will lie on real axis.....plz clarify??
plz sir clarify
Ans. c) 2
Is the answer to the last problem 0 poles on right and the system is stable?
HW answer: C
C is the answer
C) 2
how tf do you get LHP without the auxillary equation?
Sir ,I want to golang videos in api creation with gorm and graphql
The answer is :
(C) 2
ans = C
option a(i got all positive column)
How to find lhp?
C
Sir I confused when Si diode is used in clipper problems And also in the polarity of the output voltage (Vo).. In your all clipper problems sir u used ideal diode and you took the Vo +ve always while appying KVL
So sir clear my doubt
Can i contact you through telegram sir?
what is the answer?
(C) 2
The sum is of case 1 scenario right??
CAN ANY ONE SHARE THE HOMEWORK PBLM SOL?
Option c is correct option. Firstly take char eqn as 1+ G(s)H(s) and take H(s)=1(open loop) than solve it
Home work problem answer: (c) 2
bhai isme to ek number first column me infinfity aayega to fir kya krenge plzz help
@@ece116pranaykumar4 bro,in the question the trannsfer function is of open system na??should we first convert into closed loop transfer function????
@@singleking8620 bhai mera sem ka exam ho gya humko itna deep knowledge nhi h
@@ece116pranaykumar4 bro convert s into 1/z and solve
HW (c) 2
2 poles exist in the RHP
I love u
Easy peasy lemon squeeze ...
Ans A(0)
ans c) 2
As 2 pole are on each side of imaginary axis so it is marginal y stable system.
havent took minus with determinat
16:20
2 poles on right half exercise question
2 c option
is there any chance for offline mcq
2
answer c
My ans is 0.
C
2
2
C