It is really help full not only for this vedio but whole lecture series of control system engineering is excellent . Nice way of teaching. Avoiding some small mistakes.
You are the best teacher i've ever seen on youtube ...❤️ very clear and can get to mind easily ❤️❤️❤️ good luck teacher ❤️👍👍👍 i am from sri lanka 🇱🇰 your neighboring country 👍👍👍
people come here seeking help, but they don't compromise even very simple wording errors that they could understand easily from context and end up disliking the the entire video and confuse people who are learning in a good faith. smh
no criticism means no improvement. we want her to improve along with us learning so we criticize. As long as even one person is not smart enough to realize the context which is simple for YOU, means he is leaving with false, incorrect knowledge. Knowledge from a channel he trusted and may do badly in exams like GATE or others. Giving knowledge for free is good and is applauded, however, that itself comes with its own responsibilities. This tutorial series was advertised (yes, advertised, on their site) to be simple, easy to comprehend, and CORRECT. However, that is obviously wrong. Intentionally or not. These mistakes can only be rectified for future videos with criticism and feedback from us. Yet here you are being a gatekeeper, preventing us from helping THEM improve. The hypocrisy in you is strong.
Yeah. It's free and everyone's grateful. But this isn't the first time she's mispronouncing terms. I want to learn something. Rather, I was baffled at this explanation
Thank you very much ma'am, this was the best explanation I have seen on force voltage analogy. Cleared a concept for me which I was never able to understand
Mam..in the numerical In mechanical system B1 and K1 both are connected in parallel between M1 and M2.. So i think that in electrical system C1 and R1 will be connected in parallel between L1 and L2.. Clear that..mam as soon as possible..bcoz ur exams are soo closs..
while converting mechanical system to electrical system the SPRING CONSTANT REPLACED BY RECIPROCAL OF CAPACITANCE (1/C), but Mam you convert is directly as 'C' plz confirm me which one is right????
Mam I think you have written something wrong in Fm in terms of displacement You are doing some simpler mistake which I can understand by myself but these videos are helping me too much Thanks for the videos
Thank you ma'am for the step-by-step explanation but i am sorry because you didn't explain the analogy of "reference point" in both systems, it made me a little bit confused why in the example given, in the analogical electrical system, the series element C1 & R1 are connected to reference/ground,....aren't C1-R1 supposed to be isolated from reference/ground and be connected to L1 and L2 at the series connection C1-R1 respective ends? ... And C2, because k2 and b2 share the same reference point in the mechanical system, can we connect C2 in parallel with R2 while assuming both have the same curents flows in them?....Thank you.
Mam I am a 2nd year student of EXTC department. I have a subject EICS( Electronic Instrumentation & control system) Does this playlist cover all the syllabus of that subject?
madam you made a mistake, you must say velocity instead of voltage while explaining the spring element. the displacement is an integration of velocity not voltage. please think something to make it correct.
what is the real life application of force voltage analogy?...like where would we need to convert an a mechanical system to an electrical one while working in industry?
even if i come here for help but still it may heavily confuse someone.... saying voltage once or twice or even for a complete explanation of a diagram is ok but here definitely she seems to have zero conceptual knowledge.. even after reading the first point again and again and saying velocity, she still goes back to voltage voltage... it's very sad that such deprived of knowledge teacher exists... still the video was helpful but I think it is really not acceptable as it can seriously confuse people
what if we have a sub mechanical system with mass, spring, damper that is moved or displaced by a voltage to force converter. an RLC and a mechanical sub system to gather. how will we relate
kya yrrr mechanical system me voltage la rhi ho, itna confused toh main khud nhi jitna tum ho, log apne concepts clear krne yahan ate hai, zara si mistake se unka concept kharap ho skta hai, plz aage se dhayn rhke
![Noob To Max With DRAGON REWORK In Blox Fruits [FULL MOVIE]](http://i.ytimg.com/vi/LnBMOinoOvA/mqdefault.jpg)
To Get Certification, Click Here: bit.ly/436AyME
Use coupon "RUclips12" to get ‘’FLAT 12%’’ OFF at Checkout.
Impressive ma'am ..I am really impressed ....the way you teach ..the way you deliver your knowledge to students. Keep it up ma'am .
It is really help full not only for this vedio but whole lecture series of control system engineering is excellent .
Nice way of teaching.
Avoiding some small mistakes.
You are the best teacher i've ever seen on youtube ...❤️ very clear and can get to mind easily ❤️❤️❤️ good luck teacher ❤️👍👍👍 i am from sri lanka 🇱🇰 your neighboring country 👍👍👍
Nee bba
people come here seeking help, but they don't compromise even very simple wording errors that they could understand easily from context and end up disliking the the entire video and confuse people who are learning in a good faith. smh
Yeah u r right we came to learn here after watching her videos u r able to crct mistakes then see her teaching skill first of all appreciate that
no criticism means no improvement. we want her to improve along with us learning so we criticize. As long as even one person is not smart enough to realize the context which is simple for YOU, means he is leaving with false, incorrect knowledge. Knowledge from a channel he trusted and may do badly in exams like GATE or others.
Giving knowledge for free is good and is applauded, however, that itself comes with its own responsibilities. This tutorial series was advertised (yes, advertised, on their site) to be simple, easy to comprehend, and CORRECT. However, that is obviously wrong. Intentionally or not.
These mistakes can only be rectified for future videos with criticism and feedback from us. Yet here you are being a gatekeeper, preventing us from helping THEM improve.
The hypocrisy in you is strong.
Yeah. It's free and everyone's grateful. But this isn't the first time she's mispronouncing terms. I want to learn something. Rather, I was baffled at this explanation
Thank you tutorial point. Whether conceptual wise it may be wrong at some points but it clears your doubt to solve the problens.
The v in the mechanical system stands for velocity, not voltage.
I think that´s why is an "analogy" thats why the title says "Force Voltage Analogy"
You're right bro she'd said it incorrect, how does voltage comes into play in mechanical model 😂😂
its difficult to teach in front of camera without seeing any script that's why she tell voltage instead of velocity
yes right said bro
Velocity not voltage
i am from ethiopia i like your lecture thank you continue by this
Thank you so much mam.❣❣ We can see your efforts toward us.
your mama cannot spell DVD
Your Explanation and examples are very good ...
M ×(d^2 x /dt^2 ) =f , your videos are helpful mam
in mechanical system v stands for velocity.not voltage.
first see your playlist .hahhaha #RIP VLSI .. JFET LOL.. xD
@@akhilbatra5695 Hey Mr. Stalker...I have a great playlist ;) :)
..mind your own business :p :p
Claps👏👏👏
You deserve nobel prize
Lol
Your explanation approach is supab. Keep impacting. Thanking you.
Good tutioriol madam iam regularly follow ur videos keep it move forword.. 👍👍👍❤️❤️
Thank you so much ma'am .nice explains in simple language.i m feeling that I can explain to my friends easily.
very very thankful for this playlist.
Thank you very much ma'am, this was the best explanation I have seen on force voltage analogy. Cleared a concept for me which I was never able to understand
In mechanical system force is d^2(X)/dt^2 ...🙄 So it is the derivative of velocity
Thank you ma'am... Excellent... But there is a mistake in this lecture due to human errors.. No problem
Thanks you madum..very easy to understand.
Nice video and good effort . But that's velocity not voltage.
Ya it is right
What you see men here in video velocity is equal to current
@@basicg648 subscribe my channel
Yes velocity
M = Yem
L = Yel
F = Yef
😇 !
very clear and brief. thank you ma'am.
9:59 velocity
Mam..in the numerical
In mechanical system B1 and K1 both are connected in parallel between M1 and M2..
So i think that in electrical system C1 and R1 will be connected in parallel between L1 and L2..
Clear that..mam as soon as possible..bcoz ur exams are soo closs..
Even i think C1 and R1 should be parallel to each other
Dont they have the same velocity? displacement with time. i guess thats why they are in series
as we have only m1 and m2 so we cant have more than two mesh if we connect it in parallel we will have 3 meshes.
@@achintsingh210 see the point no. 1 ) if two elements have same velocity they are connected in series.
I hope you get it.
See the point no. 1) if the two elements have same velocity, they'll be in series.
Understood?
while converting mechanical system to electrical system the SPRING CONSTANT REPLACED BY RECIPROCAL OF CAPACITANCE (1/C), but Mam you convert is directly as 'C' plz confirm me which one is right????
Bhai meko bhi yei samj ni ara saala
Yes she has done a mistake
Mam,its not voltage its velocity,because velocity is the output of mechanical system.
Mam I think you have written something wrong in Fm in terms of displacement
You are doing some simpler mistake which I can understand by myself but these videos are helping me too much
Thanks for the videos
d^2(x)/dt^2
thanks alot sister❤
very amazing teacher
Can u solve a problem related to force voltage and force current analogy
Very nice teaching mam....thankyou mam.
Thanq so much🙏🙏
Thanks a lot 🙏
Mam ms lo for mass that is d^2 (x)/dt^2=dv/dt
thanks❤🌹
I think at 8.04 u by mistake said voltage instead of velocity.
Mam direct analogy it is also called forced Voltage analogy or not
Thank you ma'am for the step-by-step explanation but i am sorry because you didn't explain the analogy of "reference point" in both systems, it made me a little bit confused why in the example given, in the analogical electrical system, the series element C1 & R1 are connected to reference/ground,....aren't C1-R1 supposed to be isolated from reference/ground and be connected to L1 and L2 at the series connection C1-R1 respective ends? ... And C2, because k2 and b2 share the same reference point in the mechanical system, can we connect C2 in parallel with R2 while assuming both have the same curents flows in them?....Thank you.
also differentiation the 2nd derivative of displacement x will be written without squaring t .that make me confused
Madam A doubt raised.. ..why we take frictional coefficient as resistance?
Yeah i m also confuse here just
Ma'am with all respect I'm telling you that you made a mistake, each time you said voltage instead of velocity.
it happens bro, it was a silly mistake . don't mind .. if u got it it's well and good why to point out again and again. she is a nice teacher
@@akhilbatra5695 don't take it as negative. as he pointing out, most of the students getting to know its a mistake
Mam I am a 2nd year student of EXTC department.
I have a subject EICS( Electronic Instrumentation & control system)
Does this playlist cover all the syllabus of that subject?
Thanks🙏🙇 madam
madam you made a mistake, you must say velocity instead of voltage while explaining the spring element. the displacement is an integration of velocity not voltage. please think something to make it correct.
but you are explaining very well which is helpful for me. thank you. your lectures always makes me clear
dx/dt is velocity mam
Mam in the question you write k=c that was written by mistake i think...am i right??
Plz rply i want to clear my doubt??
Acceleration= d^2(x) / dt^2
Mam it's d²x/dt² not d²x/dt
In mechanical systems vo is velocity not voltage is it correct mam
Akka I want force voltage analogy problems
what is the real life application of force voltage analogy?...like where would we need to convert an a mechanical system to an electrical one while working in industry?
It is easier to perform analysis of an electrical system rather than a mechanical system,,, that's why
even if i come here for help but still it may heavily confuse someone....
saying voltage once or twice or even for a complete explanation of a diagram is ok but here definitely she seems to have zero conceptual
knowledge..
even after reading the first point again and again and saying velocity, she still goes back to voltage voltage... it's very sad that such deprived of knowledge teacher exists... still the video was helpful but I think it is really not acceptable as it can seriously confuse people
No practice question video..please upload it
Im watching this video on exam day 😂
what if we have a sub mechanical system with mass, spring, damper that is moved or displaced by a voltage to force converter. an RLC and a mechanical sub system to gather. how will we relate
Ma'am velocity ka distance me conversation galat likha hein it's
d^2x/dt^2
Looks like she has not properly understood the concept before teaching us...9:11 and 10:05 .. v as voltage..
thank you mem
Im to lazy to read control systems by ogata, is this suitable to that book ??
Thankyou mam
Very very thankful
Easily to understand
Force voltage analogy is direct analogy or indirect analogy
good exp
Ma. M here D Square by DT whole square hoga n.... In mass case
Thank you so much mamm
the best, thank you
Ma'am u wrote double differentiation wrong check it once ma'am in force due to mass
f=Bdx/dt=Bv, v is not voltage it is velocity
Nice lecture mam..
Nice teach mam
Mam problem on force voltage and current analogy
why should we take only inductor in case of force equivalent in electrical system ? please anyone reply
the main point tenx
Awesome lecture but aap kya kya padhati hai mam
Where is the resistance (for friction)in 2nd loop..
madam firstly what is the use of learning this force voltage-current analogy......please anybody explain it
I think she is making a mistake between velocity and voltage both being represented by v..
How can a voltage be their in mechanical systems 🔥
What happens when x1 displacement is not given?
Madam please dicuss problems on force to voltage and force to current analogus
NC
thank u a lot mam.
5:07
Please confirm anyone
Is "V" voltage or velocity?
In mechanical system it is velocity, in electrical system it is Voltage
Thanks
you are wrongly saying voltage in mechanical system. it is velocity
There is a mistake k=1/c not c
Here v is not voltage bt it is velocity
you said voltage is equal in series
9:59 what you want to say????????????????
Thank you
Thank you ma'm
Please provide all notes
Voltage in series vl not b same ...it's velocity
ok
Mam I didn't understand
But
Your eyes is ....ufff 😘
Explained as mentioned in books, basic concepts not cleared.
Recheck while uploading videos
kya yrrr mechanical system me voltage la rhi ho, itna confused toh main khud nhi jitna tum ho, log apne concepts clear krne yahan ate hai, zara si mistake se unka concept kharap ho skta hai, plz aage se dhayn rhke
Provide me1 or 2 examples mam....