I am super impressed with your lectures.. Extremely GRATEFUL!!!!!!... because of your lectures I could able to clear my exam with good grades..🤩🤩🤩🤩🤩🤩🙏🙏🙏🙏
This video helps a lot I have my exam tomorrow of LCS and I don't know a single word your TH-cam channel give me the confidence to sit in the exam thank u so much keep up the good work.
@@hassanrabbaniboyka Thanks for the reply. Please I have tried and in all the examples I have seen, they use capacitance current in place of I. what if a capacitor is not in the circuit? Can I still use I = Cdv/dt?
@@ernestadonu9110 without capacitor it is just resistor and inductor. in this example they are solving for current. always solve the equation with one variable . that how you solve equations and make transfer function
Great video but why does everybody use this same example with Vout being the voltage across the capacitor? I've never seen this same example but with a resistor voltage as output which I think is a lot more complicated
I want to see the lecture of (modeling in the time domain some observations) of linear control system. Can someone be kind enough to tell me if there is any video pecture of that?
It doesn't matter. You can do whatever you like... standard representation for of the transfer function has no coefficient on the s^2 component, which is why she did it.
This is not a control system, just a circuit consisting of resistance, inductance and capacitance connected in series. Voltage drop across resistance is R times i(t). i(t) signifies that current is a function of time. Voltage drop across inductance is L times di(t)/dt Voltage drop across capacitance is 1/C times integral of i(t)dt. Inductive reactance equals omega times L . Omega equals 2 pi f (f is frequency) Capacitive reactance equals 1/omega times C Total Impedance of the circuit Z = R + j times x x is a total reactance j is defined as: j square equals -1 Module of total impedance Z equals: |Z| = square root of (R square + x square) That's all boys and girls.
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She is better than our lecture who doesn't explain a thing
I guess all of them are the same
Stfu
@@omarf148 yes they're all the same.
Where are you studying?
your lecturer also fellow her(watching this video)
You are very good, I wish we have more of your kind in my school
you explain so clearly. Thanks for doing this
Very good lecture. I have been watching your lecture since digital system. Great job. Thank you.
I am super impressed with your lectures.. Extremely GRATEFUL!!!!!!... because of your lectures I could able to clear my exam with good grades..🤩🤩🤩🤩🤩🤩🙏🙏🙏🙏
You are so super helpful. I thank you heartfully for these tutorials!!
This video helps a lot I have my exam tomorrow of LCS and I don't know a single word your TH-cam channel give me the confidence to sit in the exam thank u so much keep up the good work.
THANKS A MILLION, MADAM, YOU ARE THE BEST!
yes
Great explanation in few minutes your content delivery is unique and really helpful thankyou so much
Thanks in a million.
Really you added in real time study lectures
Great explanation...i hope easy understanding to everyone.
Thanks for the ur lecture this video
Thank you miss, you are better explaining than my teacher. c:
thank you. its so valuable for me... congratulation to you
thank u for creating these videos for u helped me a lot.
Thanks mam, I like your video which very helpful for me.
Please make video on chapter wise problem and solution video also.
she's better than any of my lecturers
Good concept 👌👍
Thanku you mama
Your teaching is very nice
Mam these vedios are usefull for tancet and tneb AE 2018 exams preparation .....please try to put other electrical subject vedios also mam
Thank madam for your teaching
Thank you.,🤗🤗🤗
Fantastic! Thank you so much!
@ 2:28, I want to know why you consider the current in terms of capacitor? Why not in any other quantity
this way you can write a transfer function , otherwise its not possible. Try this yourself and you will understand better
@@hassanrabbaniboyka Thanks for the reply. Please I have tried and in all the examples I have seen, they use capacitance current in place of I. what if a capacitor is not in the circuit? Can I still use I = Cdv/dt?
@@ernestadonu9110 without capacitor it is just resistor and inductor. in this example they are solving for current.
always solve the equation with one variable . that how you solve equations and make transfer function
when the forcing function , x(n)= 3^n and initial condition , y(-1)=2 & y(-2)=4.
Also, draw the difference equation using building blocks.
Best lecturer
Great 5 min dekne pr 2 gante neend agyi 👌👌
Did you make a video regarding how to do Laplace transform? I'm a bit confused there.
that you have to take engineering math or advanced math as prerequisite knowledge.
Thanks a lot!
Good teacher
App bahut aacha sa samjati hai
Great video but why does everybody use this same example with Vout being the voltage across the capacitor? I've never seen this same example but with a resistor voltage as output which I think is a lot more complicated
Good information
thank you very useful and honest
For what purpose are we taking LC as a common factor?
making transfer function
By watching her videos my concept of control system is improving sure but at the same time I'm worried for my english lol
is this topic related to modern physics or classical?
Thank you mam 💖
Did u explainess the time variant. Time invariant concept videos
wt is the use of those mathematical equations in Control systems? Will they help in industrial applications?
yes, if you want to write a code or design and control a system, then you need to model it first
Thank you ma'am
Many thanks!!!
my assignment task is "Give an example of mathematical modeling in modern physics" plz tell me can i give this example to sol my task.
Thanks a lot mam
Thanks mam.. 🙏
Thanks madam.
I want to see the lecture of (modeling in the time domain some observations) of linear control system. Can someone be kind enough to tell me if there is any video pecture of that?
GOAT
Mam,Is this tutorials helpful for mechanical engineering students???
Madam please do video classes on electronic circuit analysis. Please madam no one gave perfect explanation please madam
Why we have take out "LC" out [means(1/LC)*Vi] why not RC..?
Is it because both are reactive component?
i wish someone can answer this question. for what purpose are we taking out LC as a common factor?
It doesn't make any difference as it is a second order differential equation. She's just trying to get rid of the LC term before d^2vo/dt^2
It doesn't matter. You can do whatever you like... standard representation for of the transfer function has no coefficient on the s^2 component, which is why she did it.
I like your class
Mam otherwise please share link for good explantion videos I want that mam ECA is very important for me
Aap achchha hi samjati hai mam lekin hindi me explain karenge to thoda zyada samaj me aayega to please aap hindi me padhaiye🙏
👏🏻
So thanks mam
can someone explain the last step in detail plz
Not show in full specification
Where is the second one transfer function model
hey , her acsent of speaking the words containing "L" bursts me in laughter , seems like I am seeing a south movie
Get a life
But her leturing is 😊 good
Hi hlo mam what is 1.mechanical rotational systems and 2.mechanical translation systems
Thanku mam☺️☺️
Mam how can I get these cs notes???
Thank you madam
Which text book we should refer....?
Design Of Feedback Control Systems 4Th Ed.: Stefani ...
Thank you
Sircute
Nice video though
Dear maam
Is this Electrical system part of modeling ?
circuit modeling which is the part of electrical engineering
This is not a control system, just a circuit consisting of resistance, inductance and capacitance connected in series.
Voltage drop across resistance is R times i(t).
i(t) signifies that current is a function of time.
Voltage drop across inductance is L times di(t)/dt
Voltage drop across capacitance is 1/C times integral of i(t)dt.
Inductive reactance equals omega times L . Omega equals 2 pi f (f is frequency)
Capacitive reactance equals 1/omega times C
Total Impedance of the circuit Z = R + j times x x is a total reactance
j is defined as: j square equals -1
Module of total impedance Z equals:
|Z| = square root of (R square + x square)
That's all boys and girls.
How can I get these notes ??
make your own notes idiot
bravo
Thanks mam
Mam good
Mam. Plzz explain 🥺 engineering Mathematics-3
اول عربي 😅
Can someone explain how I = Cdv/ dt came in that differential equation
I=C dv/dt is the current equation for a capacitor
Tq madam
good lady
Tq mam
نبي منهج pdf
Please aap hindi me v bataiye ,nhi samajh me aata h aise
ha
منك لله يعبفتاح حوجتنا للهنود 😓
More power to your pen
You are so cute mam
P L E S
Are you able to understand her?
you are so beautiful