Transfer function of an LRC circuit - step by step
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- čas přidán 14. 08. 2020
- MECE 3350 Control Systems, Lecture 4, exercise 20. Transfer function of an LRC circuit.
Lecture 4 here: • Control Systems, Lectu...
Lecture notes here: www.biomechatronics.ca/teachi... - Věda a technologie
Sir l like your way of teaching thank you so much for your help you did it very easy l have understood the problem 😀 😊 🙂 😄
Thank you soo much sir you have rocked it💕👍
Please i have question 😔 to find state space of LC circuit how I can send the circuit figure to you.?
This is so interesting. I have a question: could a simple tank circuit be analogous to a simple pendulum? Would this be mathematically provable.
Very useful, thx a lot .
Very nice explanation sir
how to write state space matrix for the same circuit? can someone plz help
super helpful
Hi, what type of filter is this?
Awesome
love.
siz bunu nereye yazdınız hocam? saygılar. teacher biolkasd
Label R1 and R2.
Is this dude writing backwards? Because that's awesome.
mirrored in post, you can see he is writing with his left hand and he is most likely not a lefty
Why didn’t you convert to frequency domain and then use current divider?
The objective here is to learn how to manipulate a set of differential equations.
I think that is different R in first loop and R in 2nd loop.
It is assumed that both resistors have the same resistance (10 Ohms)
Hi sir!
How do we know if we have to use s or not when solving this problem?
I think we use "s" when we Laplace transform thr equation
@@kamalkolade1945 I found my answer. We use s to replace jw to make writing the expression easier but apparently is a step that involves laplace too so you're right about that.
Cramers rule exists you know?
Here is the lecture that covers Cramer's rule: czcams.com/video/AKWX2YXVE7E/video.html