No. Total (step) response = forced response (due to sources turning ON) + natural response (due to capacitor/inductor initial conditions). The term forced and natural response is used in conjunction with an approach to solving differential equations for RC/RL circuits by hand.
Thank you for the suggestion, which I will consider your suggestion for the future. At present, there is a video available using phasor circuit analysis for series and parallel RLC circuits: ua-cam.com/video/rL8l4xZ6EL0/v-deo.html
In this video, PSPICE is used at the end of the video for confirming the answer. There are other videos in this channel which show how to use LTSPICE and PySpice (Python) to simulate RC and RL circuits.
The theory needed to solve this example is discussed in the following video: ua-cam.com/video/N6rZynDLwoQ/v-deo.html
Awesome video! Thank you!!!!!!!
Thank you!
Superbly explained 💯👍
Thank you! Glad you found it useful for your learning!
Step response is same as force response or not?
No.
Total (step) response = forced response (due to sources turning ON) + natural response (due to capacitor/inductor initial conditions).
The term forced and natural response is used in conjunction with an approach to solving differential equations for RC/RL circuits by hand.
Make video on lcr circuit parallel and series
Thank you for the suggestion, which I will consider your suggestion for the future.
At present, there is a video available using phasor circuit analysis for series and parallel RLC circuits: ua-cam.com/video/rL8l4xZ6EL0/v-deo.html
Great video :))
Thank you! Glad you enjoyed watching the video and it made a positive difference to your understanding!
Which circuit simulator are you using??
In this video, PSPICE is used at the end of the video for confirming the answer. There are other videos in this channel which show how to use LTSPICE and PySpice (Python) to simulate RC and RL circuits.