I have a question if i may ask , I got a transfer function where the R(s) side is = 3r (second derivative)+ r , if I want to get C4 as in the video , i will move everything to next side but what happens to 3r^2 ? because my prof's solution shows that he removed it but and just left +r , but i dont understand the reason behind this
You are a saint for making these videos. My fellow classmates and I appreciate you.
Out of all the videos I found, yours was the only one who helped me understand it! THANK YOU SO MUCH!
💙💙💙
You're welcome!
No words to explain your efforts, thank you so much.
So nice of you, thank you
Amazing, made such a simple and concise explanation, it seems obvious. Thank you so much!
Great! The only video with step by step explaination.
Glad it helped!
thank youuuuuu so much ma'am
You're very welcome!
Thank you miss 😊
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simple, clear and straight .... many thanks ❤❤
You’re welcome!
Top!! Very well explained 👍
Thank u so muccch!! that was quick!
Thank you for this explaining
Good explanation but I believe there is an error, the 100-numerator coefficient belongs in the C matrix not in the B matrix.
Wow amazing thanks sis
It helped a lot
Happy to help
Very helpful video. Tks!
Glad it was helpful!
what a great explanation
Glad it was helpful!
great explanation, thank you!
You're welcome!
Awesome video. Thank you a lot!!
Glad you liked it!
Thank you, maam! I Learned a lot!!
GOD bless!!!
Glad it was helpful!
Thank you so much ❤
you're welcome
Good explanation ma'am....
Thank you 😃
Thank you❤
You're welcome 😊
thank youu!!! hope u r doing fine
Thx a bunch mam
Tq u mam it's help me a lot ❤
you're welcome!
Can u write the last results causes i didn't get it
Thanks a lot mam, very helpful
You’re welcome ☺️
Thank u so much. very helpful
You’re welcome! Glad it was helpful.
Thank you!!
You're welcome!
i have a question, what is the method if we have a system SISO ?
Thanks!
Welcome!
thank you
Welcome!
you just fast put the co efficient values on the matrix due to which we could not understand
I agree
thank u so much...
You are welcome!
I have a question if i may ask , I got a transfer function where the R(s) side is = 3r (second derivative)+ r , if I want to get C4 as in the video , i will move everything to next side but what happens to 3r^2 ? because my prof's solution shows that he removed it but and just left +r , but i dont understand the reason behind this
Hi! Please see if this new tutorial helps: ua-cam.com/video/V1ym47us6g8/v-deo.html
great thanks
You are welcome!
what if there's an s term multiplying R(s)?
The derivative of x1 is x2. So the C matrix would have the coefficient of Rs in its second column
Also remember , if the order of the tf numerator is higher than the denominator , use long division and obtain an input for the D matrix .
Hi I do have question. What if the my transfer function is like this
1/ 0.5s²+2s+1
Can i apply this method? Thank you
Yes you can
Thank you but I am very confused how to solve it because of the 0.5 in s²
What is the model of that pen?
They are the iBayam pens shown in this blog post. :)
engineeringwithstyle.com/best-note-taking-pens/
lets say r(s) was being multiplied by 20s^2 +8s do they have to go on the left side ? And should we distribute ?
also what if this was a 2nd order transform denominator ?
Hi! I just posted another video that may help you with this: ua-cam.com/video/V1ym47us6g8/v-deo.html
thanx
You're welcome!
mam i could not understand matrix concept
What part needs more explanation? If I make another video on this topic I'll expand on that part.
niiice... 🤗
Thank you!
Last diagram
too sorted :)
useless
If we have a mimo system with n*m transfer functions so we have multi column matrix B and multi line matrix C ,how we can handle it?