Thanks for this type of concept,best thing is video is in small part .easy to learn ❤️ this videos are used for so many engineering students ❤️ thanks a lot mam❤️❤️❤️❤️
What is meant by steady-state in a capacitive circuit subject to a sinusoidal voltage input? A sinewave depicts movements in the form of waves. It has a datum, rapid, slowing and steady growth in one direction for a quarter cycle with reference to a datum (a reference), and then slow and faster decay in one direction for the next quarter cycle, and all these elements again in the opposite direction (reversal) of the forward movement for the next half-cycle. It has peaks and valleys. In essence, the sinewave is a perfect embodiment of oscillatory movements like springs and quantities like voltage. It retains its waveshape when added to another sinewave of the same frequency and arbitrary phase and is the only periodic waveform which has this property. Imagine that you and your friend are playing a game of “swing”. When your friend sits on a stationary swing and you begin pushing it, it will take a few hard pushes initially to overcome inertia when the swing moves with a small displacement. You then synchronize your pushes by progressively moving slightly away from the stationary position of the swing, initially, pushing gently, and then pushing harder as you move away from the central stationary position of the swing. The point of pushing the swing is usually at the top of the swing cycle at one end. It takes a while of pushing before you are able to establish a rhythmic swing. The period before the rhythmic swing is established is the “transient”, and the rhythmic swing that is established after the few transient cycles elapse is the “steady-state”. This is analogous to establishing the steady-state in a capacitive circuit subject to a sinusoidal input. The capacitor being initially uncharged, will cause the current during the transient period to assume a value that will be quite different from that at the same voltage angle after steady-state is established. Electrostatics and circuits belong to one science, not two. These are discussed usually separately in textbooks and science and engineering courses. It is not possible to discuss the circuit processes which produce a sinusoidal current when a sinusoidal voltage is applied to a capacitor….the changing rates of change of the applied voltage ….the surface charge set up changing at every instant….the applied field changing in the wires ….and the current at each and every instant in time. Watch the two videos listed below to learn about current and the conduction process and surface charges (using a unified approach to electrostatics and circuits at a fundamental level). 1. th-cam.com/video/REsWdd76qxc/w-d-xo.html 2. th-cam.com/video/8BQM_xw2Rfo/w-d-xo.html The last frame of video #1 lists textbook 4 which discusses the sinusoidal steady-state in capacitors and inductors with the help of sequential diagrams and animated power-point presentations of the varying field components in the circuit elements in more detail.
To eliminate nonzero steady state error which controller/compensator are used? A)PI controller B)PD controller C)lead compensator D)lag compensator Please rly
ma'am, i have a question that is - difference between desired output and actual output or - difference between actual output and input which is right????
S=yesss😂😂 sounds like she's doing it deliberately. Don't get me wrong, loved the lecture. Learnt a lot. Thank you.. But please work on the pronunciation.
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This woman >>>> My teacher👏🏻👏🏻👏🏻
chup
Need Hydraulic controller and pneumatic controller mam
❤
nice teaching ...plz ignore negative and inappropriate comments.
Thanks for this type of concept,best thing is video is in small part .easy to learn ❤️ this videos are used for so many engineering students ❤️ thanks a lot mam❤️❤️❤️❤️
Ma'am, you explain very well! Thank you!!
Los profesores de la india son los mejores, entiendo su inglés muy fácil y las explicaciones! Muchas gracias!
because she is tamil tamilanda
I just want you to know, This is soo helpful! thank you
MaM ap ko sab Kuch hi ataa ha when ever I search for any topic apki video samna Hoti ha
Much love Ma❤.. I understood everything you taught.
Thank u so much mam..really u have a good skills of teaching.....
you are an amazing teacher
reliable source of information will certainly subscribe
What is meant by steady-state in a capacitive circuit subject to a sinusoidal voltage input?
A sinewave depicts movements in the form of waves. It has a datum, rapid, slowing and steady growth in one direction for a quarter cycle with reference to a datum (a reference), and then slow and faster decay in one direction for the next quarter cycle, and all these elements again in the opposite direction (reversal) of the forward movement for the next half-cycle. It has peaks and valleys.
In essence, the sinewave is a perfect embodiment of oscillatory movements like springs and quantities like voltage. It retains its waveshape when added to another sinewave of the same frequency and arbitrary phase and is the only periodic waveform which has this property.
Imagine that you and your friend are playing a game of “swing”. When your friend sits on a stationary swing and you begin pushing it, it will take a few hard pushes initially to overcome inertia when the swing moves with a small displacement. You then synchronize your pushes by progressively moving slightly away from the stationary position of the swing, initially, pushing gently, and then pushing harder as you move away from the central stationary position of the swing.
The point of pushing the swing is usually at the top of the swing cycle at one end. It takes a while of pushing before you are able to establish a rhythmic swing.
The period before the rhythmic swing is established is the “transient”, and the rhythmic swing that is established after the few transient cycles elapse is the “steady-state”.
This is analogous to establishing the steady-state in a capacitive circuit subject to a sinusoidal input. The capacitor being initially uncharged, will cause the current during the transient period to assume a value that will be quite different from that at the same voltage angle after steady-state is established.
Electrostatics and circuits belong to one science, not two.
These are discussed usually separately in textbooks and science and engineering courses.
It is not possible to discuss the circuit processes which produce a sinusoidal current when a sinusoidal voltage is applied to a capacitor….the changing rates of change of the applied voltage ….the surface charge set up changing at every instant….the applied field changing in the wires ….and the current at each and every instant in time.
Watch the two videos listed below to learn about current and the conduction process and surface charges (using a unified approach to electrostatics and circuits at a fundamental level).
1. th-cam.com/video/REsWdd76qxc/w-d-xo.html
2. th-cam.com/video/8BQM_xw2Rfo/w-d-xo.html
The last frame of video #1 lists textbook 4 which discusses the sinusoidal steady-state in capacitors and inductors with the help of sequential diagrams and animated power-point presentations of the varying field components in the circuit elements in more detail.
Love this woman. Such a smart young lady!
Thank you so much for this video, clear, concise, and very helpful! Fantastic teacher
cool ever after. One of the Best professor
Nice explanation mam 👌👌👌👌👍🔥
For anyone getting problem listen in 1.5x speed
l am very intresting to study because ur videos are so easily accebtable for anyone
Wow! wonderfully explained
Fellow Office fan! Cheers
Hi sis super teaching
Why there is negative sign writing equation of Es? I mean(Es=Rs-Cs. Hs)
Same doubt !
Negative feedback
Negative feedback= CsHs
"Study State Error".........NICE
Thanks from egypt
To eliminate nonzero steady state error which controller/compensator are used?
A)PI controller
B)PD controller
C)lead compensator
D)lag compensator
Please rly
Man u r best
This is for open loop or close loop
Nice teacher
Thanks a lot mam❤
Thank you Mam 🔥
What is the error in the computation of trends and responses?
Bahut khub
Very nice
Thank you madam
thanks 🌹😊
Nice
Thank you Miss
i cant even escape them to learn on youtube
Love you mam this answer
Good
Why S*E(S) in last. Can anyone explain pls
Can anyone tell me is it for unity feedback aystem or non umity feedback system?
as far as I have understood it is for non-unity f/b because H(s)is present so F/B = H(s) which is not equal to unit(one)
ma'am, i have a question that is
- difference between desired output and actual output
or
- difference between actual output and input
which is right????
thank you, mam
Thanks Mam
thanks alot..
you are nothinhg but great
🙏🙏
voice ka bht problem hota h thora sa uncha bola kren please
S=yesss😂😂 sounds like she's doing it deliberately. Don't get me wrong, loved the lecture. Learnt a lot. Thank you.. But please work on the pronunciation.
you please work and concentrate on the topic and content first, not on the person and how they preent
Anurag rajkumar this is not English class.. if you want to learn language go get it it in arts school.
this is engineering class man..
Akka merko dandam.
Abe yar hindi me kyu nahi bolte hai
Ek to vaise hi kuchh nahi samajh ta aur upar se english, bas dimag ka bharosa hota hai
Please explain in hindi madam
Love u mam
Mary me ❤️😂
😂😂😂😂
Voice is too looowwwww
I'm sorry but .. eRRor
Thank you madam!