To see subtitles in other languages: Click on the gear symbol under the video, then click on "subtitles." Then select the language (You may need to scroll up and down to see all the languages available). --To change subtitle appearance: Scroll to the top of the language selection window and click "options." In the options window you can, for example, choose a different font color and background color, and set the "background opacity" to 100% to help make the subtitles more readable. --To turn the subtitles "on" or "off" altogether: Click the "CC" button under the video. --If you believe that the translation in the subtitles can be improved, please send me an email.
@ForWork-sl3uz You can't copy my video, but if you want to help me add Hindi subtitles that will appear on my channel, please send me an email. I will email you the subtitle file in English (which includes the timings). You will then be able to edit the file to replace the English with the translation, and then email the file back to me.
I have one doubt ,the energy droped in feedback resister is coming from where ,since no current flows inside or outside the op amp which shows external voltage Vcc of op amp not contribute this The amplifier to increase or decrease voltage is only due the energy from external voltage Vcc connected inside the op amp ,during feedback case ,no current flows inside or outside the op amp ,then how the op amp have gain
These are excellent. I love how you animated the voltages as you did. These would make for excellent teaching resources for both instructors and students.
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link: ru-vid.com_video?v=_o4ScgRZtNI&ref=share You will then be able to add translations for all the subtitles. You will also be able to provide a translation for the title of the video. Please remember to hit the submit button for both the title and for the subtitles, as they are submitted separately. Details about adding translations is available at support.google.com/youtube/answer/6054623?hl=en Thanks.
You are so under rated this is a great channel, i love the way you explain using simple animations, you definitely deserve more views, thats why I always like and comment
I've seen the typical "water analogies" of folks' trying to develop the intuition of how op amps work, and they're good, but this takes the cake. Great job on the graphics and animation. You've made it all seem so obvious. Thank you.
As everyone else says these videos are by far the best at explaining concepts like this. I can't understand why courses and books can't teach like this, basically trying to make everything as graphical and simple has possible. I still don't totally get it but this video really helps. I would love to see a video of where an entire pre amp circuit for example is given and all the voltages of every part are shown and explained.
This is a superb video. I have been reading up on this and struggling, but your video just explained it perfectly so I finally get it. Many thanks from Sheffield - Uk.
Using the resistors coupled on a lever of the negative input of the OpAmp is freakn genius, makes visualizing it so much more intuitive. So if the R value increases the length of the resistor on the vid will increase thus making the lever pivot in a way which relates the output voltage to the input voltage in a certain way. Damn thanks alot.
Mind blown. This video turned something that I struggled to understand into a thing that is very intuitive to understand. I really liked this video. This is such an amazing channel. Thanks for producing such a content.
ultimate animation I ever saw to make beginners understand about electronics and components. Great Job. I like seeing more for other components like Mosfet etc.,
Thanks for the compliment about my animations. I animate FETs in my video "Logic Gates from Transistors" at the following link ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-SW2Bwc17_wA.html
Calling the inputs "plus" and "minus" is making me mad but I understand that clear explanation is more important than proper naming. And you did a good job explaining it. Thank you.
I haven't had watched it yet but thanks to you, Eugene. In behalf of all electronics engg major like me, we'd like to say thanks. :)) keep it up! Can you discuss please some Maths? Like a little bit of hint, a tiny detail of some Millenium Problems? :))
Come on Eugene, that video came a few days too late. Just came home from my exam and I think I failed it. :( Thanks for the effort, though. The visualisation is great as always!
All the music in this video is from the free RU-vid audio library, and the names of the songs are the following. Eine_Kleine_Nachtmusik_by_Mozart Fur_Elise_by_Beethoven
I am showing positive current, which is in the opposite direction of electron current. I explain this in my video on visualizing voltage at ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE--Rb9guSEeVE.html
It is because the other side of the resistor is at zero volts. Therefore, the total voltage drop across the resistor is equal to V input. The current is the voltage drop divided by the resistance: V input / R1. You were thinking of a voltage divider, in which case the midpoint of the two resistors would not be zero as it is in this case.
An almost perfect video. Incredibly good job on those animations. A few minor improvements would be to get rid of the backgroundmusic and replace the annoying female voice by a male one.
How is this physics? This is electrical engineering. What physicist is going to know what an Op Amp is? This is applied technology, not the study of natural phenomenon. But it is cool that you are doing this.
